Nucleotide sequences and polypeptides encoded thereby useful for modifying plant characteristics and phenotypes

ABSTRACT

Plants, plant cells, plant material, seed of plants and regenerated plants comprising a nucleic acid molecule that encodes an amino acid sequence which confers at least one improved characteristic to said plants, plant cells, plant material, seed of plants and regenerated plants as compared to wild-type plants cultivated under identical conditions.

CROSS REFERENCE TO RELATED APPLICATION

This is a Divisional application of co-pending application Ser. No. 12/139,269 filed on Jun. 13, 2008, which is a Divisional application of U.S. Nonprovisional application Ser. No. 11/172, 740 filed on Jun. 30, 2005, which claims priority under 35 U.S.C. §119(e) on U.S. Provisional application No(s). 60/583,621; 60/584,829, and 60/584,800 filed on Jun. 30, 2004, the entire contents of which are hereby incorporated by reference in their entirety.

FIELD OF THE INVENTION

The present invention relates to isolated polynucleotides, polypeptides encoded thereby, and the use of those products for making transgenic plants or organisms, such as transgenic plants.

BACKGROUND OF THE INVENTION

There are more than 300,000 species of plants. They show a wide diversity of forms, ranging from delicate liverworts, adapted for life in a damp habitat, to cacti, capable of surviving in the desert. The plant kingdom includes herbaceous plants, such as corn, whose life cycle is measured in months, to the giant redwood tree, which can live for thousands of years. This diversity reflects the adaptations of plants to survive in a wide range of habitats. This is seen most clearly in the flowering plants (phylum Angiospermophyta), which are the most numerous, with over 250,000 species. They are also the most widespread, being found from the tropics to the arctic.

The process of plant breeding involving man's intervention in natural breeding and selection is some 20,000 years old. It has produced remarkable advances in adapting existing species to serve new purposes. The world's economics was largely based on the successes of agriculture for most of these 20,000 years.

Plant breeding involves choosing parents, making crosses to allow recombination of gene (alleles) and searching for and selecting improved forms. Success depends on the genes/alleles available, the combinations required and the ability to create and find the correct combinations necessary to give the desired properties to the plant. Molecular genetics technologies are now capable of providing new genes, new alleles and the means of creating and selecting plants with the new, desired characteristics.

Plants specifically improved for agriculture, horticulture and other industries can be obtained using molecular technologies. As an example, great agronomic value can result from modulating the size of a plant as a whole or of any of its organs. The green revolution came about as a result of creating dwarf wheat plants, which produced a higher seed yield than taller plants because they could withstand higher levels and inputs of fertilizer and water.

Similarly, modulation of the size and stature of an entire plant, or a particular portion of a plant, allows production of plants better suited for a particular industry. For example, reductions in the height of specific ornamentals, crops and tree species can be beneficial by allowing easier harvesting. Alternatively, increasing height may be beneficial by providing more biomass. Other examples of commercially desirable traits include increasing the length of the floral stems of cut flowers, increasing or altering leaf size and shape, enhancing the size of seeds and/or fruits, enhancing yields by specifically stimulating hormone (e.g. Brassinolide) synthesis and stimulating early flowering or evoking late flowering by altering levels of gibberellic acid or other hormones in specific cells. Changes in organ size and biomass also result in changes in the mass of constituent molecules such as secondary products.

To summarize, molecular genetic technologies provide the ability to modulate and manipulate growth, development and biochemistry of the entire plant as well as at the cell, tissue and organ levels. Thus, plant morphology, development and biochemistry are altered to maximize or minimize the desired plant trait.

SUMMARY OF THE INVENTION

The present invention, therefore, relates to isolated polynucleotides, polypeptides encoded thereby, and the use of those products for making transgenic organisms, such as plants, bacteria, yeast, fungi and mammals, depending upon the desired characteristics.

In the field of agriculture and forestry efforts are constantly being made to produce plants with improved characteristics, such as increased overall yield or increased yield of biomass or chemical components, in particular in order to guarantee the supply of the constantly increasing world population with food and to guarantee the supply of reproducible raw materials. Conventionally, people try to obtain plants with an increased yield by breeding, but this is time-consuming and labor-intensive. Furthermore, appropriate breeding programs must be performed for each relevant plant species.

Recently, progress has been made by the genetic manipulation of plants. That is, by introducing into and expressing recombinant nucleic acid molecules in plants. Such approaches have the advantage of not usually being limited to one plant species, but being transferable to other plant species as well. EP-A 0 511 979, for example, discloses that the expression of a prokaryotic asparagine synthetase in plant cells inter alia leads to an increase in biomass production. Similarly, WO 96/21737 describes the production of plants with increased yield from the expression of deregulated or unregulated fructose-1,6-bisphosphatase due to an increased rate of the photosynthesis. Nevertheless, there still is a need for generally applicable processes that improve yield in plants interesting for agriculture or forestry purposes.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 shows alignments of the polypeptide sequences of the invention with other sequences, showing conserved regions of identical or similar residues. The sequences shown are CeresClone:40252 (SEQ ID NO: 2); CeresClone:1094231 (SEQ ID NO: 3); CeresClone:967599 (SEQ ID NO: 4); CeresClone:32791 (SEQ ID NO: 6); gi|23194453 (SEQ ID NO: 7); gi|60100358 (SEQ ID NO: 8); gi|3646326 (SEQ ID NO: 9); CeresClone:1044034 (SEQ ID NO: 10); gi|4103342 (SEQ ID NO: 11); gi|2997615 (SEQ ID NO: 12); gi|20385590 (SEQ ID NO: 13); gi|27763670 (SEQ ID NO: 14); gi|2981133 (SEQ ID NO: 15); gi|42794566 (SEQ ID NO: 16); gi|42794562 (SEQ ID NO: 17); gi|1568513 (SEQ ID NO: 18); gi|861081 (SEQ ID NO: 19); gi|1067169 (SEQ ID NO: 20); gi|24967137 (SEQ ID NO: 21); CeresClone:39319 (SEQ ID NO: 23); CeresClone:1016818 (SEQ ID NO: 24); CeresClone:947724 (SEQ ID NO: 25); gi|6165638 (SEQ ID NO: 26); CeresClone:1088967 (SEQ ID NO: 27); CeresClone:27929 (SEQ ID NO: 28); gi|4585973 (SEQ ID NO: 29); CeresClone:1555168 (SEQ ID NO: 30); CeresClone:774974 (SEQ ID NO: 31); CeresClone:705811 (SEQ ID NO: 32); CeresClone:516874 (SEQ ID NO: 33); CeresClone:1097485 (SEQ ID NO: 34); CeresClone:1126017 (SEQ ID NO: 35); CeresClone:1084637 (SEQ ID NO: 36); CeresClone:41337 (SEQ ID NO: 38); CeresClone:37506 (SEQ ID NO: 39); CeresClone:293206 (SEQ ID NO: 40); CeresClone:297432 (SEQ ID NO: 41); CeresClone:246807 (SEQ ID NO: 42); CeresClone:246886 (SEQ ID NO: 43); CeresClone:994766 (SEQ ID NO: 44); CeresClone:554851 (SEQ ID NO: 45); CeresClone:314 (SEQ ID NO: 47); CeresClone:13483 (SEQ ID NO: 48); gi|21387015 (SEQ ID NO: 49); CeresClone:481859 (SEQ ID NO: 50); CeresClone:366717 (SEQ ID NO: 51); gi|50909577 (SEQ ID NO: 52); CeresClone:696513 (SEQ ID NO: 53); CeresClone:332 (SEQ ID NO: 55); gi|55168209 (SEQ ID NO: 56); gi|25992100 (SEQ ID NO: 57); gi|38099059 (SEQ ID NO: 58); gi|45385108 (SEQ ID NO: 59); gi|58700406 (SEQ ID NO: 60); gi|25989383 (SEQ ID NO: 61); gi|42822041 (SEQ ID NO: 62); gi|52145406 (SEQ ID NO: 63); CeresClone:557009 (SEQ ID NO: 64); gi|27960757 (SEQ ID NO: 65); CeresClone:907 (SEQ ID NO: 67); gi|9757729 (SEQ ID NO: 68); gi|50940339 (SEQ ID NO: 69); gi|52354409 (SEQ ID NO: 70); CeresClone:1241 (SEQ ID NO: 72); gi|15218072 (SEQ ID NO: 73); CeresClone:108339 (SEQ ID NO: 74); gi|21536682 (SEQ ID NO: 75); CeresClone:473347 (SEQ ID NO: 76); CeresClone:224792 (SEQ ID NO: 77); CeresClone:704321 (SEQ ID NO: 78); CeresClone:1610 (SEQ ID NO: 80); CeresClone:1001432 (SEQ ID NO: 81); gi|4056502 (SEQ ID NO: 82); CeresClone:8397 (SEQ ID NO: 83); gi|21617886 (SEQ ID NO: 84); gi|3043428 (SEQ ID NO: 85); CeresClone:533766 (SEQ ID NO: 86); CeresClone:792839 (SEQ ID NO: 87); CeresClone:471212 (SEQ ID NO: 88); CeresClone:1033671 (SEQ ID NO: 89); CeresClone:1281072 (SEQ ID NO: 90); CeresClone:287037 (SEQ ID NO: 91); CeresClone:741488 (SEQ ID NO: 92); gi|34893994 (SEQ ID NO: 93); gi|40748265 (SEQ ID NO: 94); CeresClone:2403 (SEQ ID NO: 96); CeresClone:1482731 (SEQ ID NO: 97); CeresClone:1005253 (SEQ ID NO: 98); CeresClone:1123804 (SEQ ID NO: 99); CeresClone:273687 (SEQ ID NO: 100); CeresClone:522921 (SEQ ID NO: 101); CeresClone:1439969 (SEQ ID NO: 102); CeresClone:1036726 (SEQ ID NO: 103); CeresClone:513071 (SEQ ID NO: 104); CeresClone:1464066 (SEQ ID NO: 105); CeresClone:1453619 (SEQ ID NO: 106); CeresClone:2835 (SEQ ID NO: 108); CeresClone:1048082 (SEQ ID NO: 109); CeresClone:1085655 (SEQ ID NO: 110); CeresClone:1087946 (SEQ ID NO: 111); CeresClone:642424 (SEQ ID NO: 112); CeresClone:1570772 (SEQ ID NO: 113); CeresClone:3000 (SEQ ID NO: 115); CeresClone:541719 (SEQ ID NO: 116); CeresClone:524559 (SEQ ID NO: 117); CeresClone:537272 (SEQ ID NO: 118); CeresClone:1250120 (SEQ ID NO: 119); CeresClone:276087 (SEQ ID NO: 120); CeresClone:1060946 (SEQ ID NO: 121); CeresClone:303119 (SEQ ID NO: 122); CeresClone:3036 (SEQ ID NO: 124); gi|31432429 (SEQ ID NO: 125); CeresClone:278965 (SEQ ID NO: 126); gi|56785318 (SEQ ID NO: 127); CeresClone:3363 (SEQ ID NO: 129); CeresClone:1053095 (SEQ ID NO: 130); CeresClone:1059204 (SEQ ID NO: 131); CeresClone:1382087 (SEQ ID NO: 132); CeresClone:952003 (SEQ ID NO: 133); CeresClone:1032859 (SEQ ID NO: 134); CeresClone:1123883 (SEQ ID NO: 135); CeresClone:1379029 (SEQ ID NO: 136); CeresClone:1101282 (SEQ ID NO: 137); CeresClone:1463543 (SEQ ID NO: 138); CeresClone:38506 (SEQ ID NO: 139); CeresClone:20822 (SEQ ID NO: 140); CeresClone:1438404 (SEQ ID NO: 141); CeresClone:652242 (SEQ ID NO: 142); CeresClone:632635 (SEQ ID NO: 143); CeresClone:570063 (SEQ ID NO: 144); CeresClone:1453911 (SEQ ID NO: 145); CeresClone:302748 (SEQ ID NO: 146); CeresClone:3510 (SEQ ID NO: 148); CeresClone:1070119 (SEQ ID NO: 149); CeresClone:553538 (SEQ ID NO: 150); CeresClone:857804 (SEQ ID NO: 151); CeresClone:644900 (SEQ ID NO: 152); CeresClone:300291 (SEQ ID NO: 153); CeresClone:421214 (SEQ ID NO: 154); CeresClone:678746 (SEQ ID NO: 155); CeresClone:753703 (SEQ ID NO: 156); CeresClone:927400 (SEQ ID NO: 157); CeresClone:1316352 (SEQ ID NO: 158); CeresClone:810742 (SEQ ID NO: 159); gi|81888 (SEQ ID NO: 160); CeresClone:3699 (SEQ ID NO: 162); gi|28972461 (SEQ ID NO: 163); CeresClone:1039319 (SEQ ID NO: 164); gi|28972463 (SEQ ID NO: 165); CeresClone:1354315 (SEQ ID NO: 166); gi|6523104 (SEQ ID NO: 167); gi|498914 (SEQ ID NO: 168); gi|642911 (SEQ ID NO: 169); gi|19875 (SEQ ID NO: 170); gi|19873 (SEQ ID NO: 171); CeresClone:297802 (SEQ ID NO: 172); CeresClone:523191 (SEQ ID NO: 173); CeresClone:3817 (SEQ ID NO: 175); CeresClone:3858 (SEQ ID NO: 177); gi|16191591 (SEQ ID NO: 178); CeresClone:1115030 (SEQ ID NO: 179); CeresClone:1079413 (SEQ ID NO: 180); gi|31559433 (SEQ ID NO: 181); gi|33323059 (SEQ ID NO: 182); CeresClone:464464 (SEQ ID NO: 183); gi|32165478 (SEQ ID NO: 184); gi|32165470 (SEQ ID NO: 185); gi|32165466 (SEQ ID NO: 186); gi|32165476 (SEQ ID NO: 187); CeresClone:476943 (SEQ ID NO: 188); CeresClone:641520 (SEQ ID NO: 189); gi|256141 (SEQ ID NO: 190); CeresClone:5597 (SEQ ID NO: 192); CeresClone:970267 (SEQ ID NO: 193); CeresClone:619936 (SEQ ID NO: 194); gi|50355738 (SEQ ID NO: 195); CeresClone:504766 (SEQ ID NO: 196); CeresClone:618484 (SEQ ID NO: 197); CeresClone:1610116 (SEQ ID NO: 198); CeresClone:5605 (SEQ ID NO: 200); CeresClone:1040415 (SEQ ID NO: 201); CeresClone:970237 (SEQ ID NO: 202); CeresClone:599624 (SEQ ID NO: 203); gi|50943407 (SEQ ID NO: 204); gi|50943405 (SEQ ID NO: 205); CeresClone:993322 (SEQ ID NO: 206); CeresClone:1466290 (SEQ ID NO: 207); CeresClone:229182 (SEQ ID NO: 208); CeresClone:1398876 (SEQ ID NO: 209); CeresClone:6685 (SEQ ID NO: 211); CeresClone:463486 (SEQ ID NO: 212); CeresClone:8161 (SEQ ID NO: 214); CeresClone:8265 (SEQ ID NO: 216); CeresClone:540561 (SEQ ID NO: 217); gi|50906111 (SEQ ID NO: 218); CeresClone:1560255 (SEQ ID NO: 219); gi|5679336 (SEQ ID NO: 220); CeresClone:8490 (SEQ ID NO: 222); CeresClone:305463 (SEQ ID NO: 223); CeresClone:258437 (SEQ ID NO: 224); CeresClone:219341 (SEQ ID NO: 225); CeresClone:929917 (SEQ ID NO: 226); CeresClone:923677 (SEQ ID NO: 227); CeresClone:8500 (SEQ ID NO: 229); CeresClone:9683 (SEQ ID NO: 231); gi|17104783 (SEQ ID NO: 232); CeresClone:605144 (SEQ ID NO: 233); CeresClone:9897 (SEQ ID NO: 235); CeresClone:1083013 (SEQ ID NO: 236); gi|13430182 (SEQ ID NO: 237); CeresClone:568627 (SEQ ID NO: 238); CeresClone:1073644 (SEQ ID NO: 239); CeresClone:1447299 (SEQ ID NO: 240); CeresClone:1605872 (SEQ ID NO: 241); CeresClone:12272 (SEQ ID NO: 243); CeresClone:541471 (SEQ ID NO: 244); CeresClone:528932 (SEQ ID NO: 245); CeresClone:855912 (SEQ ID NO: 246); CeresClone:563093 (SEQ ID NO: 247); CeresClone:246369 (SEQ ID NO: 248); CeresClone:12514 (SEQ ID NO: 250); CeresClone:12935 (SEQ ID NO: 252); CeresClone:1025550 (SEQ ID NO: 253); gi|21593750 (SEQ ID NO: 254); CeresClone:8827 (SEQ ID NO: 255); gi|21617917 (SEQ ID NO: 256); CeresClone:951883 (SEQ ID NO: 257); CeresClone:1126078 (SEQ ID NO: 258); CeresClone:1070103 (SEQ ID NO: 259); CeresClone:1461734 (SEQ ID NO: 260); CeresClone:1127491 (SEQ ID NO: 261); CeresClone:13092 (SEQ ID NO: 263); gi|25285637 (SEQ ID NO: 264); CeresClone:288261 (SEQ ID NO: 265); gi|27544804 (SEQ ID NO: 266); gi|11544696 (SEQ ID NO: 267); CeresClone:1059504 (SEQ ID NO: 268); CeresClone:639745 (SEQ ID NO: 269); CeresClone:13263 (SEQ ID NO: 271); CeresClone:227877 (SEQ ID NO: 272); CeresClone:228481 (SEQ ID NO: 273); CeresClone:13757 (SEQ ID NO: 275); CeresClone:14583 (SEQ ID NO: 277); CeresClone:1119033 (SEQ ID NO: 278); CeresClone:649770 (SEQ ID NO: 279); CeresClone:29087 (SEQ ID NO: 280); CeresClone:1100582 (SEQ ID NO: 281); CeresClone:1042725 (SEQ ID NO: 282); CeresClone:14909 (SEQ ID NO: 284); CeresClone:380874 (SEQ ID NO: 285); CeresClone:276776 (SEQ ID NO: 286); CeresClone:529239 (SEQ ID NO: 287); CeresClone:240510 (SEQ ID NO: 288); CeresClone:1535974 (SEQ ID NO: 289); CeresClone:738726 (SEQ ID NO: 290); CeresClone:1428788 (SEQ ID NO: 291); CeresClone:631823 (SEQ ID NO: 292); CeresClone:416460 (SEQ ID NO: 293); CeresClone:1561415 (SEQ ID NO: 294); CeresClone:16412 (SEQ ID NO: 296); gi|51971769 (SEQ ID NO: 297); gi|30687750 (SEQ ID NO: 298); CeresClone:1352771 (SEQ ID NO: 299); gi|27363302 (SEQ ID NO: 300); gi|42566152 (SEQ ID NO: 301); gi|7269635 (SEQ ID NO: 302); gi|22328869 (SEQ ID NO: 303); CeresClone:16461 (SEQ ID NO: 305); gi|3687688 (SEQ ID NO: 306); CeresClone:1051749 (SEQ ID NO: 307); gi|50918565 (SEQ ID NO: 308); CeresClone:17409 (SEQ ID NO: 310); CeresClone:1073780 (SEQ ID NO: 311); CeresClone:240836 (SEQ ID NO: 312); CeresClone:281173 (SEQ ID NO: 313); CeresClone:225601 (SEQ ID NO: 314); CeresClone:779692 (SEQ ID NO: 315); CeresClone:17482 (SEQ ID NO: 317); gi|51457942 (SEQ ID NO: 318); CeresClone:658444 (SEQ ID NO: 319); CeresClone:1559567 (SEQ ID NO: 320); CeresClone:17632 (SEQ ID NO: 322); CeresClone:473410 (SEQ ID NO: 323); gi|50905911 (SEQ ID NO: 324); CeresClone:703717 (SEQ ID NO: 325); CeresClone:277297 (SEQ ID NO: 326); CeresClone:1459706 (SEQ ID NO: 327); CeresClone:18612 (SEQ ID NO: 329); CeresClone:1359803 (SEQ ID NO: 330); gi|12057164 (SEQ ID NO: 331); CeresClone:374674 (SEQ ID NO: 332); gi|50919691 (SEQ ID NO: 333); CeresClone:925629 (SEQ ID NO: 334); CeresClone:18820 (SEQ ID NO: 336); CeresClone:277479 (SEQ ID NO: 337); CeresClone:978584 (SEQ ID NO: 338); CeresClone:673690 (SEQ ID NO: 339); CeresClone:1018883 (SEQ ID NO: 340); CeresClone:19188 (SEQ ID NO: 342); CeresClone:953088 (SEQ ID NO: 343); CeresClone:901252 (SEQ ID NO: 344); CeresClone:524628 (SEQ ID NO: 345); gi|33325041 (SEQ ID NO: 346); gi|27476082 (SEQ ID NO: 347); gi|3411152 (SEQ ID NO: 348); CeresClone:284998 (SEQ ID NO: 349); CeresClone:226318 (SEQ ID NO: 350); CeresClone:20257 (SEQ ID NO: 352); CeresClone:1038259 (SEQ ID NO: 353); CeresClone:957946 (SEQ ID NO: 354); CeresClone:855445 (SEQ ID NO: 355); CeresClone:1447025 (SEQ ID NO: 356); CeresClone:291379 (SEQ ID NO: 357); CeresClone:327661 (SEQ ID NO: 358); CeresClone:1047513 (SEQ ID NO: 359); CeresClone:639625 (SEQ ID NO: 360); CeresClone:1317381 (SEQ ID NO: 361); CeresClone:21068 (SEQ ID NO: 363); gi|25992126 (SEQ ID NO: 364); gi|23452024 (SEQ ID NO: 365); gi|52547872 (SEQ ID NO: 366); CeresClone:22461 (SEQ ID NO: 368); CeresClone:601676 (SEQ ID NO: 369); CeresClone:23118 (SEQ ID NO: 371); CeresClone:23203 (SEQ ID NO: 373); CeresClone:961876 (SEQ ID NO: 374); gi|52076162 (SEQ ID NO: 375); CeresClone:582490 (SEQ ID NO: 376); CeresClone:226408 (SEQ ID NO: 377); CeresClone:1424939 (SEQ ID NO: 378); CeresClone:488797 (SEQ ID NO: 379); CeresClone:372782 (SEQ ID NO: 380); CeresClone:607279 (SEQ ID NO: 381); CeresClone:26907 (SEQ ID NO: 383); CeresClone:564029 (SEQ ID NO: 384); gi|51490665 (SEQ ID NO: 385); CeresClone:473087 (SEQ ID NO: 386); gi|51490663 (SEQ ID NO: 387); CeresClone:568942 (SEQ ID NO: 388); CeresClone:218083 (SEQ ID NO: 389); CeresClone:240010 (SEQ ID NO: 390); CeresClone:293151 (SEQ ID NO: 391); CeresClone:259439 (SEQ ID NO: 392); CeresClone:27460 (SEQ ID NO: 394); CeresClone:975540 (SEQ ID NO: 395); CeresClone:32348 (SEQ ID NO: 397); gi|12276037 (SEQ ID NO: 398); gi|586082 (SEQ ID NO: 399); CeresClone:755965 (SEQ ID NO: 400); CeresClone:241576 (SEQ ID NO: 401); gi|44889626 (SEQ ID NO: 402); gi|9965897 (SEQ ID NO: 403); gi|9965899 (SEQ ID NO: 404); gi|3915112 (SEQ ID NO: 405); gi|24571503 (SEQ ID NO: 406); CeresClone:32548 (SEQ ID NO: 408); gi|17819 (SEQ ID NO: 409); gi|18347 (SEQ ID NO: 410); gi|1346180 (SEQ ID NO: 411); CeresClone:7420 (SEQ ID NO: 412); gi|1346181 (SEQ ID NO: 413); gi|4567224 (SEQ ID NO: 414); CeresClone:13879 (SEQ ID NO: 415); gi|21553354 (SEQ ID NO: 416); CeresClone:32753 (SEQ ID NO: 418); CeresClone:21756 (SEQ ID NO: 419); CeresClone:1538293 (SEQ ID NO: 420); CeresClone:933957 (SEQ ID NO: 421); CeresClone:34167 (SEQ ID NO: 423); gi|18857720 (SEQ ID NO: 424); CeresClone:1014844 (SEQ ID NO: 425); CeresClone:527278 (SEQ ID NO: 426); CeresClone:514259 (SEQ ID NO: 427); gi|8919876 (SEQ ID NO: 428); gi|992598 (SEQ ID NO: 429); CeresClone:34385 (SEQ ID NO: 431); CeresClone:463738 (SEQ ID NO: 432); gi|50923675 (SEQ ID NO: 433); CeresClone:222358 (SEQ ID NO: 434); CeresClone:246601 (SEQ ID NO: 435); CeresClone:1213577 (SEQ ID NO: 436); CeresClone:34552 (SEQ ID NO: 438); CeresClone:35776 (SEQ ID NO: 440); gi|18377977 (SEQ ID NO: 441); CeresClone:1119202 (SEQ ID NO: 442); gi|757740 (SEQ ID NO: 443); gi|50947507 (SEQ ID NO: 444); gi|51965008 (SEQ ID NO: 445); gi|1155255 (SEQ ID NO: 446); gi|28628597 (SEQ ID NO: 447); gi|32400332 (SEQ ID NO: 448); CeresClone:36518 (SEQ ID NO: 450); CeresClone:37800 (SEQ ID NO: 451); CeresClone:564011 (SEQ ID NO: 452); CeresClone:225429 (SEQ ID NO: 453); CeresClone:450648 (SEQ ID NO: 454); CeresClone:326 (SEQ ID NO: 455); CeresClone:36891 (SEQ ID NO: 457); CeresClone:861902 (SEQ ID NO: 458); CeresClone:471579 (SEQ ID NO: 459); CeresClone:422618 (SEQ ID NO: 460); CeresClone:686137 (SEQ ID NO: 461); CeresClone:1315179 (SEQ ID NO: 462); CeresClone:725504 (SEQ ID NO: 463); CeresClone:705622 (SEQ ID NO: 464); CeresClone:726433 (SEQ ID NO: 465); CeresClone:256068 (SEQ ID NO: 466); CeresClone:264576 (SEQ ID NO: 467); CeresClone:1412402 (SEQ ID NO: 468); CeresClone:914491 (SEQ ID NO: 469); CeresClone:773962 (SEQ ID NO: 470); CeresClone:36904 (SEQ ID NO: 472); gi|27803873 (SEQ ID NO: 473); CeresClone:476815 (SEQ ID NO: 474); CeresClone:336060 (SEQ ID NO: 475); gi|50910635 (SEQ ID NO: 476); CeresClone:306053 (SEQ ID NO: 477); CeresClone:37288 (SEQ ID NO: 479); gi|52789958 (SEQ ID NO: 480); CeresClone:523628 (SEQ ID NO: 481); gi|38326712 (SEQ ID NO: 482); gi|34452081 (SEQ ID NO: 483); CeresClone:37298 (SEQ ID NO: 485); CeresClone:33731 (SEQ ID NO: 486); gi|21592895 (SEQ ID NO: 487); gi|9294221 (SEQ ID NO: 488); gi|27765032 (SEQ ID NO: 489); gi|58979188 (SEQ ID NO: 490); gi|1946329 (SEQ ID NO: 491); CeresClone:523811 (SEQ ID NO: 492); CeresClone:296971 (SEQ ID NO: 493); CeresClone:238897 (SEQ ID NO: 494); CeresClone:37663 (SEQ ID NO: 496); CeresClone:476994 (SEQ ID NO: 497); CeresClone:38101 (SEQ ID NO: 499); CeresClone:338602 (SEQ ID NO: 500); CeresClone:331439 (SEQ ID NO: 501); CeresClone:294922 (SEQ ID NO: 502); CeresClone:116045 (SEQ ID NO: 503); CeresClone:292789 (SEQ ID NO: 504); CeresClone:996136 (SEQ ID NO: 505); CeresClone:1073372 (SEQ ID NO: 506); CeresClone:41421 (SEQ ID NO: 507); CeresClone:1549130 (SEQ ID NO: 508); CeresClone:34479 (SEQ ID NO: 509); CeresClone:223048 (SEQ ID NO: 510); CeresClone:38419 (SEQ ID NO: 512); CeresClone:1125315 (SEQ ID NO: 513); CeresClone:319835 (SEQ ID NO: 514); CeresClone:944775 (SEQ ID NO: 515); CeresClone:1078589 (SEQ ID NO: 516); CeresClone:1067464 (SEQ ID NO: 517); CeresClone:38470 (SEQ ID NO: 519); CeresClone:1087891 (SEQ ID NO: 520); CeresClone:946439 (SEQ ID NO: 521); CeresClone:1610064 (SEQ ID NO: 522); gi|45593274 (SEQ ID NO: 523); gi|28973415 (SEQ ID NO: 524); CeresClone:1061228 (SEQ ID NO: 525); CeresClone:38690 (SEQ ID NO: 527); gi|34898868 (SEQ ID NO: 528); gi|11994389 (SEQ ID NO: 529); CeresClone:39286 (SEQ ID NO: 531); CeresClone:967750 (SEQ ID NO: 532); CeresClone:675195 (SEQ ID NO: 533); CeresClone:460412 (SEQ ID NO: 534); gi|50908821 (SEQ ID NO: 535); CeresClone:40508 (SEQ ID NO: 537); CeresClone:1063112 (SEQ ID NO: 538); CeresClone:521881 (SEQ ID NO: 539); CeresClone:217396 (SEQ ID NO: 540); CeresClone:699913 (SEQ ID NO: 541); gi|57900400 (SEQ ID NO: 542); CeresClone:40729 (SEQ ID NO: 544); CeresClone:1604687 (SEQ ID NO: 545); CeresClone:627169 (SEQ ID NO: 546); gi|34914598 (SEQ ID NO: 547); CeresClone:1397168 (SEQ ID NO: 548); gi|50909895 (SEQ ID NO: 549); CeresClone:304724 (SEQ ID NO: 550); CeresClone:41306 (SEQ ID NO: 552); CeresClone:578942 (SEQ ID NO: 553); CeresClone:41439 (SEQ ID NO: 555); gi|7228329 (SEQ ID NO: 556); gi|2981169 (SEQ ID NO: 557); gi|55734108 (SEQ ID NO: 558); gi|439493 (SEQ ID NO: 559); gi|7488707 (SEQ ID NO: 560); gi|33771374 (SEQ ID NO: 561); CeresClone:701379 (SEQ ID NO: 562); gi|2058504 (SEQ ID NO: 563); CeresClone:638614 (SEQ ID NO: 564); gi|33331578 (SEQ ID NO: 565); gi|4666360 (SEQ ID NO: 566); gi|28849865 (SEQ ID NO: 567); gi|2058506 (SEQ ID NO: 568); CeresClone:42141 (SEQ ID NO: 570); gi|51970844 (SEQ ID NO: 571); CeresClone:1197765 (SEQ ID NO: 572); gi|4559353 (SEQ ID NO: 573); gi|45476407 (SEQ ID NO: 574); CeresClone:512325 (SEQ ID NO: 575); gi|50934355 (SEQ ID NO: 576); CeresClone:297520 (SEQ ID NO: 577); CeresClone:92459 (SEQ ID NO: 579); CeresClone:98850 (SEQ ID NO: 580); gi|11545547 (SEQ ID NO: 581); gi|2829920 (SEQ ID NO: 582); gi|51968502 (SEQ ID NO: 583); CeresClone:963001 (SEQ ID NO: 584); CeresClone:92670 (SEQ ID NO: 586); CeresClone:1067750 (SEQ ID NO: 587); CeresClone:1259129 (SEQ ID NO: 588); CeresClone:981652 (SEQ ID NO: 589); CeresClone:937515 (SEQ ID NO: 590); CeresClone:260168 (SEQ ID NO: 591); CeresClone:599515 (SEQ ID NO: 592); CeresClone:685681 (SEQ ID NO: 593); CeresClone:1074266 (SEQ ID NO: 594); gi|34904072 (SEQ ID NO: 595); CeresClone:894996 (SEQ ID NO: 596); CeresClone:1466424 (SEQ ID NO: 597); CeresClone:94231 (SEQ ID NO: 599); CeresClone:121353 (SEQ ID NO: 600); CeresClone:981738 (SEQ ID NO: 601); CeresClone:707989 (SEQ ID NO: 602); gi|416640 (SEQ ID NO: 603); CeresClone:471171 (SEQ ID NO: 604); gi|114733 (SEQ ID NO: 605); CeresClone:612705 (SEQ ID NO: 606); gi|414178 (SEQ ID NO: 607); gi|4887018 (SEQ ID NO: 608); gi|4887016 (SEQ ID NO: 609); gi|22531416 (SEQ ID NO: 610); CeresClone:95135 (SEQ ID NO: 612); gi|38260672 (SEQ ID NO: 613); CeresClone:31014 (SEQ ID NO: 614); gi|38260657 (SEQ ID NO: 615); gi|21592658 (SEQ ID NO: 616); gi|38260639 (SEQ ID NO: 617); gi|7576185 (SEQ ID NO: 618); gi|4884035 (SEQ ID NO: 619); gi|38196010 (SEQ ID NO: 620); CeresClone:958836 (SEQ ID NO: 621); CeresClone:463936 (SEQ ID NO: 622); CeresClone:97434 (SEQ ID NO: 624); CeresClone:953928 (SEQ ID NO: 625); CeresClone:524682 (SEQ ID NO: 626); CeresClone:949174 (SEQ ID NO: 627); CeresClone:1299820 (SEQ ID NO: 628); gi|42565379 (SEQ ID NO: 629); CeresClone:1098019 (SEQ ID NO: 630); CeresClone:691062 (SEQ ID NO: 631); gi|47026878 (SEQ ID NO: 632); CeresClone:1120463 (SEQ ID NO: 633); gi|24473796 (SEQ ID NO: 634); CeresClone:708265 (SEQ ID NO: 635); CeresClone:475895 (SEQ ID NO: 636); CeresClone:415601 (SEQ ID NO: 637); gi|551267 (SEQ ID NO: 638); CeresClone:1117460 (SEQ ID NO: 639); CeresClone:97480 (SEQ ID NO: 641); CeresClone:1073419 (SEQ ID NO: 642); CeresClone:1064362 (SEQ ID NO: 643); CeresClone:1067161 (SEQ ID NO: 644); gi|50941651 (SEQ ID NO: 645); CeresClone:685838 (SEQ ID NO: 646); CeresClone:462970 (SEQ ID NO: 647); CeresClone:393073 (SEQ ID NO: 648); CeresClone:606064 (SEQ ID NO: 649); CeresClone:1018838 (SEQ ID NO: 650); CeresClone:1031827 (SEQ ID NO: 651); CeresClone:1502051 (SEQ ID NO: 652); CeresClone:1054195 (SEQ ID NO: 653); CeresClone:97958 (SEQ ID NO: 655); CeresClone:101583 (SEQ ID NO: 656); CeresClone:1347792 (SEQ ID NO: 657); gi|23506107 (SEQ ID NO: 658); gi|12744973 (SEQ ID NO: 659); CeresClone:12023 (SEQ ID NO: 660); gi|62320460 (SEQ ID NO: 661); gi|15218138 (SEQ ID NO: 662); gi|28973283 (SEQ ID NO: 663); gi|47232556 (SEQ ID NO: 664); CeresClone:632026 (SEQ ID NO: 665); CeresClone:974547 (SEQ ID NO: 666); gi|5031494 (SEQ ID NO: 667); gi|5031492 (SEQ ID NO: 668); CeresClone:561287 (SEQ ID NO: 669); gi|4808524 (SEQ ID NO: 670); gi|57157826 (SEQ ID NO: 671); CeresClone:98855 (SEQ ID NO: 673); CeresClone:977670 (SEQ ID NO: 674); CeresClone:1091493 (SEQ ID NO: 675); CeresClone:945779 (SEQ ID NO: 676); CeresClone:1092319 (SEQ ID NO: 677); CeresClone:965777 (SEQ ID NO: 678); CeresClone:963616 (SEQ ID NO: 679); CeresClone:972545 (SEQ ID NO: 680); CeresClone:99657 (SEQ ID NO: 682); CeresClone:976676 (SEQ ID NO: 683); CeresClone:962705 (SEQ ID NO: 684); CeresClone:1081690 (SEQ ID NO: 685); CeresClone:1076675 (SEQ ID NO: 686); CeresClone:1082802 (SEQ ID NO: 687); CeresClone:1102921 (SEQ ID NO: 688); CeresClone:1061399 (SEQ ID NO: 689); CeresClone:1040255 (SEQ ID NO: 690); CeresClone:1040515 (SEQ ID NO: 691); CeresClone:1389554 (SEQ ID NO: 692); CeresClone:615044 (SEQ ID NO: 693); CeresClone:1053159 (SEQ ID NO: 694); CeresClone:1266787 (SEQ ID NO: 695); CeresClone:1309442 (SEQ ID NO: 696); CeresClone:1425999 (SEQ ID NO: 697); CeresClone:473223 (SEQ ID NO: 698); CeresClone:100465 (SEQ ID NO: 700); gi|49333371 (SEQ ID NO: 701); gi|49333385 (SEQ ID NO: 702); CeresClone:107731 (SEQ ID NO: 704); CeresClone:661643 (SEQ ID NO: 705); CeresClone:471579 (SEQ ID NO: 706); CeresClone:364892 (SEQ ID NO: 707); CeresClone:726433 (SEQ ID NO: 708); CeresClone:705622 (SEQ ID NO: 709); CeresClone:306678 (SEQ ID NO: 710); CeresClone:861902 (SEQ ID NO: 711); CeresClone:725504 (SEQ ID NO: 712); CeresClone:1412402 (SEQ ID NO: 713); CeresClone:422618 (SEQ ID NO: 714); CeresClone:264576 (SEQ ID NO: 715); CeresClone:686137 (SEQ ID NO: 716); CeresClone:110454 (SEQ ID NO: 718); gi|50906397 (SEQ ID NO: 719); CeresClone:788183 (SEQ ID NO: 720); CeresClone:544756 (SEQ ID NO: 721); CeresClone:1536888 (SEQ ID NO: 722); CeresClone:116257 (SEQ ID NO: 724); gi|2506082 (SEQ ID NO: 725); CeresClone:604415 (SEQ ID NO: 726); gi|395216 (SEQ ID NO: 727); CeresClone:292667 (SEQ ID NO: 728); CeresClone:569711 (SEQ ID NO: 729); CeresClone:780669 (SEQ ID NO: 730); CeresClone:322131 (SEQ ID NO: 731); CeresClone:544846 (SEQ ID NO: 732); CeresClone:116843 (SEQ ID NO: 734); gi|4651204 (SEQ ID NO: 735); CeresClone:299434 (SEQ ID NO: 736); gi|50947067 (SEQ ID NO: 737); CeresClone:119256 (SEQ ID NO: 739); CeresClone:324710 (SEQ ID NO: 740); gi|50935081 (SEQ ID NO: 741); CeresClone:403558 (SEQ ID NO: 742); CeresClone:473726 (SEQ ID NO: 743); CeresClone:847500 (SEQ ID NO: 744); gi|50938543 (SEQ ID NO: 745); CeresClone:123905 (SEQ ID NO: 747); CeresClone:392659 (SEQ ID NO: 748); CeresClone:901326 (SEQ ID NO: 749); CeresClone:1446523 (SEQ ID NO: 750); CeresClone:461977 (SEQ ID NO: 751); gi|50913081 (SEQ ID NO: 752); CeresClone:141805 (SEQ ID NO: 754); gi|50921411 (SEQ ID NO: 755); CeresClone:616282 (SEQ ID NO: 756); CeresClone:524063 (SEQ ID NO: 757); CeresClone:482085 (SEQ ID NO: 758); CeresClone:141890 (SEQ ID NO: 760); gi|34911538 (SEQ ID NO: 761); CeresClone:147358 (SEQ ID NO: 763); CeresClone:1064362 (SEQ ID NO: 764); CeresClone:1073419 (SEQ ID NO: 765); gi|50941651 (SEQ ID NO: 766); CeresClone:226155 (SEQ ID NO: 767); CeresClone:1452131 (SEQ ID NO: 768); CeresClone:606064 (SEQ ID NO: 769); CeresClone:1502051 (SEQ ID NO: 770); CeresClone:1018838 (SEQ ID NO: 771); CeresClone:685838 (SEQ ID NO: 772); CeresClone:462970 (SEQ ID NO: 773); CeresClone:393073 (SEQ ID NO: 774); CeresClone:148943 (SEQ ID NO: 776); CeresClone:294527 (SEQ ID NO: 777); gi|37536088 (SEQ ID NO: 778); gi|34899608 (SEQ ID NO: 779); gi|50882170 (SEQ ID NO: 780); CeresClone:338088 (SEQ ID NO: 781); gi|24111265 (SEQ ID NO: 782); CeresClone:149402 (SEQ ID NO: 784); CeresClone:157547 (SEQ ID NO: 786); CeresClone:520302 (SEQ ID NO: 787); CeresClone:922101 (SEQ ID NO: 788); CeresClone:265717 (SEQ ID NO: 789); CeresClone:298205 (SEQ ID NO: 790); CeresClone:158333 (SEQ ID NO: 792); CeresClone:1118660 (SEQ ID NO: 793); gi|62319965 (SEQ ID NO: 794); CeresClone:225157 (SEQ ID NO: 796); CeresClone:227651 (SEQ ID NO: 798); CeresClone:628769 (SEQ ID NO: 799); CeresClone:620287 (SEQ ID NO: 800); CeresClone:691483 (SEQ ID NO: 801); CeresClone:8700 (SEQ ID NO: 802); CeresClone:1387338 (SEQ ID NO: 803); CeresClone:761484 (SEQ ID NO: 804); CeresClone:615315 (SEQ ID NO: 805); CeresClone:1326610 (SEQ ID NO: 806); CeresClone:757080 (SEQ ID NO: 807); CeresClone:1417385 (SEQ ID NO: 808); CeresClone:1057479 (SEQ ID NO: 809); CeresClone:1443563 (SEQ ID NO: 810); CeresClone:1386515 (SEQ ID NO: 811); CeresClone:1068506 (SEQ ID NO: 812); CeresClone:1081109 (SEQ ID NO: 813); CeresClone:1070341 (SEQ ID NO: 814); CeresClone:235672 (SEQ ID NO: 816); CeresClone:235672 (SEQ ID NO: 817); gi|56784045 (SEQ ID NO: 818); CeresClone:241131 (SEQ ID NO: 820); CeresClone:674257 (SEQ ID NO: 821); CeresClone:621746 (SEQ ID NO: 822); CeresClone:1334990 (SEQ ID NO: 823); CeresClone:18857 (SEQ ID NO: 824); CeresClone:262460 (SEQ ID NO: 826); gi|26451911 (SEQ ID NO: 827); CeresClone:549651 (SEQ ID NO: 828); gi|2280528 (SEQ ID NO: 829); CeresClone:544897 (SEQ ID NO: 830); gi|1841475 (SEQ ID NO: 831); CeresClone:270555 (SEQ ID NO: 833); CeresClone:1087479 (SEQ ID NO: 834); CeresClone:481710 (SEQ ID NO: 836); gi|37147896 (SEQ ID NO: 837); gi|40647095 (SEQ ID NO: 838); gi|45826358 (SEQ ID NO: 839); CeresClone:1604576 (SEQ ID NO: 840); gi|41351817 (SEQ ID NO: 841); gi|12003384 (SEQ ID NO: 842); CeresClone:1014380 (SEQ ID NO: 843); gi|45826359 (SEQ ID NO: 844); gi|49658405 (SEQ ID NO: 845); CeresClone:482122 (SEQ ID NO: 847); gi|37147896 (SEQ ID NO: 848); gi|40647095 (SEQ ID NO: 849); gi|12003384 (SEQ ID NO: 850); CeresClone:1609048 (SEQ ID NO: 851); gi|38683266 (SEQ ID NO: 852); gi|55824656 (SEQ ID NO: 853); CeresClone:1014380 (SEQ ID NO: 854); CeresClone:481710 (SEQ ID NO: 855); gi|33304979 (SEQ ID NO: 856); gi|23495458 (SEQ ID NO: 857); CeresClone:1620272 (SEQ ID NO: 858); gi|49658405 (SEQ ID NO: 859); CeresClone:536457 (SEQ ID NO: 861); CeresClone:744170 (SEQ ID NO: 862); CeresClone:7191 (SEQ ID NO: 863); CeresClone:954739 (SEQ ID NO: 864); CeresClone:16314 (SEQ ID NO: 865); CeresClone:971630 (SEQ ID NO: 866); CeresClone:40714 (SEQ ID NO: 867); CeresClone:18903 (SEQ ID NO: 868); CeresClone:703819 (SEQ ID NO: 869); CeresClone:1070258 (SEQ ID NO: 870); CeresClone:536796 (SEQ ID NO: 872); gi|29893536 (SEQ ID NO: 873); CeresClone:973892 (SEQ ID NO: 874); CeresClone:1609832 (SEQ ID NO: 875); CeresClone:1081780 (SEQ ID NO: 876); CeresClone:572121 (SEQ ID NO: 878); CeresClone:1169111 (SEQ ID NO: 879); CeresClone:641355 (SEQ ID NO: 881); gi|57012753 (SEQ ID NO: 882); gi|48479320 (SEQ ID NO: 883); gi|48479286 (SEQ ID NO: 884); gi|62632035 (SEQ ID NO: 885); gi|8843894 (SEQ ID NO: 886); gi|31432356 (SEQ ID NO: 887); gi|50948573 (SEQ ID NO: 888); gi|34221729 (SEQ ID NO: 889); gi|50921987 (SEQ ID NO: 890); gi|52076099 (SEQ ID NO: 891); CeresClone:657337 (SEQ ID NO: 893); CeresClone:660003 (SEQ ID NO: 895); gi|26450255 (SEQ ID NO: 896); CeresClone:763852 (SEQ ID NO: 897); CeresClone:664365 (SEQ ID NO: 899); CeresClone:664365 (SEQ ID NO: 900); gi|23452024 (SEQ ID NO: 901); gi|50920293 (SEQ ID NO: 902); CeresClone:21068 (SEQ ID NO: 903); gi|21554205 (SEQ ID NO: 904); gi|57012702 (SEQ ID NO: 905); CeresClone:679923 (SEQ ID NO: 907); CeresClone:708342 (SEQ ID NO: 909); gi|29893536 (SEQ ID NO: 910); gi|12083252 (SEQ ID NO: 911); CeresClone:1609832 (SEQ ID NO: 912); gi|50946411 (SEQ ID NO: 913); CeresClone:969750 (SEQ ID NO: 915); CeresClone:26867 (SEQ ID NO: 916); gi|21555003 (SEQ ID NO: 917); CeresClone:1469452 (SEQ ID NO: 918); CeresClone:1001432 (SEQ ID NO: 920); CeresClone:533766 (SEQ ID NO: 921); CeresClone:471212 (SEQ ID NO: 922); CeresClone:792839 (SEQ ID NO: 923); CeresClone:741488 (SEQ ID NO: 924); CeresClone:1033671 (SEQ ID NO: 925); gi|34893994 (SEQ ID NO: 926); CeresClone:287037 (SEQ ID NO: 927); CeresClone:1281072 (SEQ ID NO: 928); gi|40748265 (SEQ ID NO: 929); CeresClone:1002819 (SEQ ID NO: 931); CeresClone:113457 (SEQ ID NO: 932); CeresClone:1006934 (SEQ ID NO: 934); CeresClone:1007549 (SEQ ID NO: 936); gi|21689719 (SEQ ID NO: 937); gi|2465461 (SEQ ID NO: 938); gi|8250119 (SEQ ID NO: 939); gi|71495 (SEQ ID NO: 940); gi|5732912 (SEQ ID NO: 941); gi|18073562 (SEQ ID NO: 942); gi|46359518 (SEQ ID NO: 943); CeresClone:1609909 (SEQ ID NO: 944); gi|56606538 (SEQ ID NO: 945); CeresClone:1020202 (SEQ ID NO: 947); CeresClone:1043081 (SEQ ID NO: 949); CeresClone:556472 (SEQ ID NO: 950); gi|28950721 (SEQ ID NO: 951); CeresClone:17356 (SEQ ID NO: 952); gi|21553845 (SEQ ID NO: 953); CeresClone:224679 (SEQ ID NO: 954); gi|50906071 (SEQ ID NO: 955); CeresClone:302607 (SEQ ID NO: 956); CeresClone:1105554 (SEQ ID NO: 958); CeresClone:1120124 (SEQ ID NO: 960); CeresClone:1124135 (SEQ ID NO: 962); CeresClone:38416 (SEQ ID NO: 964); CeresClone:99298 (SEQ ID NO: 966); gi|15293287 (SEQ ID NO: 967); gi|2098711 (SEQ ID NO: 968); gi|57014097 (SEQ ID NO: 969); gi|8671350 (SEQ ID NO: 970); gi|29602797 (SEQ ID NO: 971); gi|54303968 (SEQ ID NO: 972); gi|6689892 (SEQ ID NO: 973); CeresClone:100245 (SEQ ID NO: 975); CeresClone:1099630 (SEQ ID NO: 976); CeresClone:95559 (SEQ ID NO: 977); CeresClone:260333 (SEQ ID NO: 978); CeresClone:591143 (SEQ ID NO: 979); CeresClone:623826 (SEQ ID NO: 980); CeresClone:1100861 (SEQ ID NO: 981); CeresClone:288489 (SEQ ID NO: 982); CeresClone:240283 (SEQ ID NO: 983); CeresClone:31041 (SEQ ID NO: 984); CeresClone:39888 (SEQ ID NO: 985); CeresClone:237589 (SEQ ID NO: 986); CeresClone:515236 (SEQ ID NO: 987); CeresClone:679007 (SEQ ID NO: 988); CeresClone:101798 (SEQ ID NO: 990); CeresClone:43057 (SEQ ID NO: 991); CeresClone:1084610 (SEQ ID NO: 992); CeresClone:1256733 (SEQ ID NO: 993); CeresClone:1606591 (SEQ ID NO: 994); CeresClone:1610037 (SEQ ID NO: 995); CeresClone:473005 (SEQ ID NO: 996); CeresClone:745591 (SEQ ID NO: 997); CeresClone:618028 (SEQ ID NO: 998); CeresClone:770864 (SEQ ID NO: 999); CeresClone:1017382 (SEQ ID NO: 1000); CeresClone:775154 (SEQ ID NO: 1001); CeresClone:589684 (SEQ ID NO: 1002); CeresClone:325450 (SEQ ID NO: 1003); CeresClone:481690 (SEQ ID NO: 1004); CeresClone:38370 (SEQ ID NO: 1006); CeresClone:1091268 (SEQ ID NO: 1007); CeresClone:1604873 (SEQ ID NO: 1008); CeresClone:615767 (SEQ ID NO: 1009); CeresClone:764645 (SEQ ID NO: 1010); CeresClone:241538 (SEQ ID NO: 1011); CeresClone:1496 (SEQ ID NO: 1013); CeresClone:1120170 (SEQ ID NO: 1014); CeresClone:1449840 (SEQ ID NO: 1015); CeresClone:34004 (SEQ ID NO: 1016); gi|23505779 (SEQ ID NO: 1017); CeresClone:1060748 (SEQ ID NO: 1018); gi|438111 (SEQ ID NO: 1019); gi|438109 (SEQ ID NO: 1020); gi|34581769 (SEQ ID NO: 1021); CeresClone:1063698 (SEQ ID NO: 1022); CeresClone:1486090 (SEQ ID NO: 1023); CeresClone:1461422 (SEQ ID NO: 1024); gi|18252349 (SEQ ID NO: 1025); CeresClone:1233 (SEQ ID NO: 1026); gi|21537196 (SEQ ID NO: 1027); CeresClone:544375 (SEQ ID NO: 1028); CeresClone:545629 (SEQ ID NO: 1029); CeresClone:850326 (SEQ ID NO: 1030); CeresClone:2561 (SEQ ID NO: 1032); CeresClone:1248535 (SEQ ID NO: 1033); CeresClone:22819 (SEQ ID NO: 1034); CeresClone:463579 (SEQ ID NO: 1035); CeresClone:1608715 (SEQ ID NO: 1036); CeresClone:1440308 (SEQ ID NO: 1037); CeresClone:297892 (SEQ ID NO: 1038); CeresClone:479756 (SEQ ID NO: 1039); CeresClone:467309 (SEQ ID NO: 1040); CeresClone:1316364 (SEQ ID NO: 1041); CeresClone:3618 (SEQ ID NO: 1043); gi|50947055 (SEQ ID NO: 1044); CeresClone:520298 (SEQ ID NO: 1045); CeresClone:1171157 (SEQ ID NO: 1046); CeresClone:301153 (SEQ ID NO: 1047); CeresClone:7191 (SEQ ID NO: 1049); CeresClone:1388283 (SEQ ID NO: 1050); CeresClone:322573 (SEQ ID NO: 1051); CeresClone:289956 (SEQ ID NO: 1052); CeresClone:972545 (SEQ ID NO: 1053); CeresClone:1091493 (SEQ ID NO: 1054); CeresClone:977670 (SEQ ID NO: 1055); CeresClone:963616 (SEQ ID NO: 1056); CeresClone:8254 (SEQ ID NO: 1058); CeresClone:635423 (SEQ ID NO: 1059); CeresClone:219727 (SEQ ID NO: 1060); gi|50931507 (SEQ ID NO: 1061); CeresClone:8877 (SEQ ID NO: 1063); gi|2501578 (SEQ ID NO: 1064); CeresClone:707209 (SEQ ID NO: 1065); gi|46399271 (SEQ ID NO: 1066); gi|45477167 (SEQ ID NO: 1067); gi|17104657 (SEQ ID NO: 1068); CeresClone:575584 (SEQ ID NO: 1069); gi|50933621 (SEQ ID NO: 1070); gi|45477162 (SEQ ID NO: 1071); CeresClone:1278155 (SEQ ID NO: 1072); CeresClone:1371669 (SEQ ID NO: 1073); gi|31429734 (SEQ ID NO: 1074); CeresClone:8916 (SEQ ID NO: 1076); CeresClone:945362 (SEQ ID NO: 1077); CeresClone:10879 (SEQ ID NO: 1079); CeresClone:205653 (SEQ ID NO: 1080); CeresClone:36005 (SEQ ID NO: 1081); CeresClone:1375012 (SEQ ID NO: 1082); CeresClone:519929 (SEQ ID NO: 1083); CeresClone:759040 (SEQ ID NO: 1084); gi|50934399 (SEQ ID NO: 1085); CeresClone:19116 (SEQ ID NO: 1087); gi|8809589 (SEQ ID NO: 1088); gi|29367365 (SEQ ID NO: 1089); CeresClone:325957 (SEQ ID NO: 1090); gi|984756 (SEQ ID NO: 1091); CeresClone:19319 (SEQ ID NO: 1093); CeresClone:1171110 (SEQ ID NO: 1094); CeresClone:1286956 (SEQ ID NO: 1095); CeresClone:290537 (SEQ ID NO: 1096); CeresClone:1283332 (SEQ ID NO: 1097); CeresClone:1277502 (SEQ ID NO: 1098); CeresClone:698804 (SEQ ID NO: 1099); CeresClone:19486 (SEQ ID NO: 1101); CeresClone:3549 (SEQ ID NO: 1102); CeresClone:472861 (SEQ ID NO: 1103); CeresClone:1446800 (SEQ ID NO: 1104); CeresClone:239171 (SEQ ID NO: 1105); CeresClone:19510 (SEQ ID NO: 1107); CeresClone:473358 (SEQ ID NO: 1108); gi|1486472 (SEQ ID NO: 1109); gi|19913109 (SEQ ID NO: 1110); gi|19913105 (SEQ ID NO: 1111); gi|19913107 (SEQ ID NO: 1112); gi|53749331 (SEQ ID NO: 1113); gi|10798640 (SEQ ID NO: 1114); CeresClone:234671 (SEQ ID NO: 1115); CeresClone:1396898 (SEQ ID NO: 1116); gi|37964368 (SEQ ID NO: 1117); gi|51860703 (SEQ ID NO: 1118); CeresClone:702388 (SEQ ID NO: 1119); CeresClone:1319106 (SEQ ID NO: 1120); gi|62701911 (SEQ ID NO: 1121); gi|61651612 (SEQ ID NO: 1122); gi|2130089 (SEQ ID NO: 1123); gi|2130090 (SEQ ID NO: 1124); CeresClone:23322 (SEQ ID NO: 1126); CeresClone:950968 (SEQ ID NO: 1127); CeresClone:513057 (SEQ ID NO: 1128); CeresClone:568719 (SEQ ID NO: 1129); gi|50907613 (SEQ ID NO: 1130); CeresClone:302545 (SEQ ID NO: 1131); CeresClone:242695 (SEQ ID NO: 1132); CeresClone:399010 (SEQ ID NO: 1133); CeresClone:1605876 (SEQ ID NO: 1134); gi|1808694 (SEQ ID NO: 1135); CeresClone:25538 (SEQ ID NO: 1137); gi|50313439 (SEQ ID NO: 1138); CeresClone:947207 (SEQ ID NO: 1139); CeresClone:463846 (SEQ ID NO: 1140); CeresClone:788296 (SEQ ID NO: 1141); CeresClone:303545 (SEQ ID NO: 1142); gi|34903270 (SEQ ID NO: 1143); gi|56783703 (SEQ ID NO: 1144); CeresClone:25607 (SEQ ID NO: 1146); gi|44190488 (SEQ ID NO: 1147); gi|1070008 (SEQ ID NO: 1148); gi|1070006 (SEQ ID NO: 1149); gi|12006165 (SEQ ID NO: 1150); CeresClone:1243020 (SEQ ID NO: 1151); gi|1143319 (SEQ ID NO: 1152); CeresClone:625652 (SEQ ID NO: 1153); CeresClone:626132 (SEQ ID NO: 1154); CeresClone:25758 (SEQ ID NO: 1156); CeresClone:598129 (SEQ ID NO: 1157); CeresClone:1045071 (SEQ ID NO: 1158); gi|34914658 (SEQ ID NO: 1159); CeresClone:246177 (SEQ ID NO: 1160); CeresClone:616734 (SEQ ID NO: 1161); CeresClone:25886 (SEQ ID NO: 1163); CeresClone:1068409 (SEQ ID NO: 1164); CeresClone:1374642 (SEQ ID NO: 1165); CeresClone:1048933 (SEQ ID NO: 1166); CeresClone:1065662 (SEQ ID NO: 1167); CeresClone:1350261 (SEQ ID NO: 1168); CeresClone:1356804 (SEQ ID NO: 1169); CeresClone:1125290 (SEQ ID NO: 1170); CeresClone:1030509 (SEQ ID NO: 1171); CeresClone:1128260 (SEQ ID NO: 1172); CeresClone:1377743 (SEQ ID NO: 1173); CeresClone:1066115 (SEQ ID NO: 1174); CeresClone:953102 (SEQ ID NO: 1175); CeresClone:971131 (SEQ ID NO: 1176); CeresClone:1609975 (SEQ ID NO: 1177); CeresClone:1274796 (SEQ ID NO: 1178); CeresClone:1016548 (SEQ ID NO: 1179); CeresClone:1610119 (SEQ ID NO: 1180); CeresClone:27464 (SEQ ID NO: 1182); gi|15027985 (SEQ ID NO: 1183); CeresClone:957229 (SEQ ID NO: 1184); CeresClone:1120324 (SEQ ID NO: 1185); CeresClone:476765 (SEQ ID NO: 1186); CeresClone:1509889 (SEQ ID NO: 1187); CeresClone:1369486 (SEQ ID NO: 1188); gi|50916178 (SEQ ID NO: 1189); CeresClone:28602 (SEQ ID NO: 1191); CeresClone:969510 (SEQ ID NO: 1192); CeresClone:1608016 (SEQ ID NO: 1193); CeresClone:1607887 (SEQ ID NO: 1194); CeresClone:227031 (SEQ ID NO: 1195); CeresClone:1069458 (SEQ ID NO: 1196); CeresClone:212187 (SEQ ID NO: 1197); CeresClone:317418 (SEQ ID NO: 1198); CeresClone:1321295 (SEQ ID NO: 1199); CeresClone:1555466 (SEQ ID NO: 1200); CeresClone:276371 (SEQ ID NO: 1201); CeresClone:840867 (SEQ ID NO: 1202); CeresClone:996541 (SEQ ID NO: 1203); CeresClone:35493 (SEQ ID NO: 1205); gi|18410026 (SEQ ID NO: 1206); gi|6822071 (SEQ ID NO: 1207); gi|21593243 (SEQ ID NO: 1208); CeresClone:37377 (SEQ ID NO: 1209); gi|16417950 (SEQ ID NO: 1210); CeresClone:464546 (SEQ ID NO: 1211); CeresClone:244285 (SEQ ID NO: 1212); CeresClone:696587 (SEQ ID NO: 1213); gi|50252009 (SEQ ID NO: 1214); CeresClone:224503 (SEQ ID NO: 1215); gi|54292590 (SEQ ID NO: 1216); CeresClone:37229 (SEQ ID NO: 1218); gi|46402460 (SEQ ID NO: 1219); CeresClone:1190836 (SEQ ID NO: 1220); CeresClone:565532 (SEQ ID NO: 1221); CeresClone:285684 (SEQ ID NO: 1222); CeresClone:513688 (SEQ ID NO: 1223); CeresClone:928014 (SEQ ID NO: 1224); CeresClone:279840 (SEQ ID NO: 1225); gi|56785038 (SEQ ID NO: 1226); CeresClone:37493 (SEQ ID NO: 1228); gi|50929439 (SEQ ID NO: 1229); gi|54290518 (SEQ ID NO: 1230); gi|50929461 (SEQ ID NO: 1231); gi|50929459 (SEQ ID NO: 1232); gi|50929453 (SEQ ID NO: 1233); gi|10177828 (SEQ ID NO: 1234); CeresClone:38105 (SEQ ID NO: 1236); CeresClone:703932 (SEQ ID NO: 1237); gi|23296480 (SEQ ID NO: 1238); CeresClone:474785 (SEQ ID NO: 1239); gi|30524691 (SEQ ID NO: 1240); gi|51535412 (SEQ ID NO: 1241); CeresClone:38214 (SEQ ID NO: 1243); gi|62530909 (SEQ ID NO: 1244); gi|56785066 (SEQ ID NO: 1245); CeresClone:1452029 (SEQ ID NO: 1246); CeresClone:1114366 (SEQ ID NO: 1247); gi|53749460 (SEQ ID NO: 1248); gi|51702424 (SEQ ID NO: 1249); gi|52353038 (SEQ ID NO: 1250); CeresClone:533917 (SEQ ID NO: 1251); CeresClone:41320 (SEQ ID NO: 1253); CeresClone:399596 (SEQ ID NO: 1254); CeresClone:112937 (SEQ ID NO: 1255); CeresClone:30054 (SEQ ID NO: 1256); CeresClone:621235 (SEQ ID NO: 1257); CeresClone:516928 (SEQ ID NO: 1258); CeresClone:1556600 (SEQ ID NO: 1259); CeresClone:287422 (SEQ ID NO: 1260); CeresClone:1245439 (SEQ ID NO: 1261); CeresClone:42533 (SEQ ID NO: 1263); gi|8919876 (SEQ ID NO: 1264); CeresClone:1044452 (SEQ ID NO: 1265); gi|1234900 (SEQ ID NO: 1266); CeresClone:514259 (SEQ ID NO: 1267); CeresClone:527278 (SEQ ID NO: 1268); gi|1149535 (SEQ ID NO: 1269); gi|18034437 (SEQ ID NO: 1270); CeresClone:42925 (SEQ ID NO: 1272); CeresClone:13121 (SEQ ID NO: 1273); gi|10177184 (SEQ ID NO: 1274); CeresClone:980268 (SEQ ID NO: 1275); CeresClone:761821 (SEQ ID NO: 1276); gi|50428638 (SEQ ID NO: 1277); CeresClone:1464627 (SEQ ID NO: 1278); CeresClone:567431 (SEQ ID NO: 1279); CeresClone:94110 (SEQ ID NO: 1281); CeresClone:95453 (SEQ ID NO: 1283); CeresClone:1091493 (SEQ ID NO: 1284); CeresClone:977670 (SEQ ID NO: 1285); CeresClone:945779 (SEQ ID NO: 1286); CeresClone:965777 (SEQ ID NO: 1287); CeresClone:1092319 (SEQ ID NO: 1288); CeresClone:963616 (SEQ ID NO: 1289); CeresClone:942159 (SEQ ID NO: 1290); CeresClone:583672 (SEQ ID NO: 1291); CeresClone:258380 (SEQ ID NO: 1292); CeresClone:972545 (SEQ ID NO: 1293); CeresClone:1101112 (SEQ ID NO: 1294); CeresClone:96020 (SEQ ID NO: 1296); CeresClone:6579 (SEQ ID NO: 1297); CeresClone:593648 (SEQ ID NO: 1298); CeresClone:218466 (SEQ ID NO: 1299); gi|50907773 (SEQ ID NO: 1300); CeresClone:697349 (SEQ ID NO: 1301); CeresClone:97415 (SEQ ID NO: 1303); CeresClone:940194 (SEQ ID NO: 1304); CeresClone:637786 (SEQ ID NO: 1305); gi|15148884 (SEQ ID NO: 1306); gi|472940 (SEQ ID NO: 1307); CeresClone:923131 (SEQ ID NO: 1308); CeresClone:355400 (SEQ ID NO: 1309); gi|50915316 (SEQ ID NO: 1310); CeresClone:98340 (SEQ ID NO: 1312); CeresClone:101255 (SEQ ID NO: 1314); gi|22531114 (SEQ ID NO: 1315); gi|60460512 (SEQ ID NO: 1316); CeresClone:673872 (SEQ ID NO: 1317); gi|34906436 (SEQ ID NO: 1318); gi|56605376 (SEQ ID NO: 1319); gi|38260609 (SEQ ID NO: 1320); CeresClone:103581 (SEQ ID NO: 1322); gi|5668794 (SEQ ID NO: 1323); CeresClone:978708 (SEQ ID NO: 1324); CeresClone:678544 (SEQ ID NO: 1325); CeresClone:324937 (SEQ ID NO: 1326); CeresClone:300623 (SEQ ID NO: 1327); CeresClone:1068780 (SEQ ID NO: 1328); gi|4996640 (SEQ ID NO: 1329); gi|50928017 (SEQ ID NO: 1330); gi|3341468 (SEQ ID NO: 1331); gi|1360078 (SEQ ID NO: 1332); gi|37051131 (SEQ ID NO: 1333); CeresClone:666382 (SEQ ID NO: 1334); CeresClone:738478 (SEQ ID NO: 1335); CeresClone:109514 (SEQ ID NO: 1337); gi|7798996 (SEQ ID NO: 1338); CeresClone:1608104 (SEQ ID NO: 1339); gi|2346974 (SEQ ID NO: 1340); gi|34908122 (SEQ ID NO: 1341); gi|55734104 (SEQ ID NO: 1342); CeresClone:569852 (SEQ ID NO: 1343); gi|2346976 (SEQ ID NO: 1344); CeresClone:603406 (SEQ ID NO: 1345); CeresClone:115946 (SEQ ID NO: 1347); CeresClone:919325 (SEQ ID NO: 1348); gi|34896098 (SEQ ID NO: 1349); CeresClone:644693 (SEQ ID NO: 1350); CeresClone:115975 (SEQ ID NO: 1352); CeresClone:463901 (SEQ ID NO: 1353); CeresClone:559449 (SEQ ID NO: 1354); CeresClone:477913 (SEQ ID NO: 1355); CeresClone:277275 (SEQ ID NO: 1356); CeresClone:1283429 (SEQ ID NO: 1357); CeresClone:239740 (SEQ ID NO: 1358); CeresClone:117369 (SEQ ID NO: 1360); CeresClone:968213 (SEQ ID NO: 1361); CeresClone:952177 (SEQ ID NO: 1362); CeresClone:716576 (SEQ ID NO: 1363); gi|50924582 (SEQ ID NO: 1364); CeresClone:218224 (SEQ ID NO: 1365); CeresClone:1283561 (SEQ ID NO: 1366); CeresClone:639565 (SEQ ID NO: 1367); CeresClone:1273479 (SEQ ID NO: 1368); CeresClone:1389544 (SEQ ID NO: 1369); CeresClone:118337 (SEQ ID NO: 1371); CeresClone:1389175 (SEQ ID NO: 1372); CeresClone:1069165 (SEQ ID NO: 1373); CeresClone:1326914 (SEQ ID NO: 1374); CeresClone:567871 (SEQ ID NO: 1375); CeresClone:743658 (SEQ ID NO: 1376); CeresClone:1488709 (SEQ ID NO: 1377); CeresClone:1075190 (SEQ ID NO: 1378); CeresClone:939972 (SEQ ID NO: 1379); CeresClone:388126 (SEQ ID NO: 1380); CeresClone:1289769 (SEQ ID NO: 1381); CeresClone:687467 (SEQ ID NO: 1382); CeresClone:150912 (SEQ ID NO: 1384); gi|17940314 (SEQ ID NO: 1385); CeresClone:36616 (SEQ ID NO: 1386); gi|50947311 (SEQ ID NO: 1387); CeresClone:328761 (SEQ ID NO: 1388); CeresClone:152141 (SEQ ID NO: 1390); CeresClone:1107090 (SEQ ID NO: 1391); gi|17827 (SEQ ID NO: 1392); CeresClone:95686 (SEQ ID NO: 1393); CeresClone:34420 (SEQ ID NO: 1394); gi|15221631 (SEQ ID NO: 1395); gi|4512615 (SEQ ID NO: 1396); gi|53749178 (SEQ ID NO: 1397); gi|21592944 (SEQ ID NO: 1398); gi|18377879 (SEQ ID NO: 1399); CeresClone:325158 (SEQ ID NO: 1400); CeresClone:545212 (SEQ ID NO: 1401); CeresClone:279689 (SEQ ID NO: 1402); CeresClone:157730 (SEQ ID NO: 1404); CeresClone:537600 (SEQ ID NO: 1405); CeresClone:473923 (SEQ ID NO: 1406); CeresClone:704991 (SEQ ID NO: 1407); gi|50918691 (SEQ ID NO: 1408); CeresClone:221477 (SEQ ID NO: 1410); CeresClone:225597 (SEQ ID NO: 1412); gi|50937881 (SEQ ID NO: 1413); CeresClone:839318 (SEQ ID NO: 1414); CeresClone:264705 (SEQ ID NO: 1416); CeresClone:108581 (SEQ ID NO: 1417); CeresClone:28462 (SEQ ID NO: 1418); CeresClone:33570 (SEQ ID NO: 1419); CeresClone:979674 (SEQ ID NO: 1420); CeresClone:977919 (SEQ ID NO: 1421); CeresClone:1068835 (SEQ ID NO: 1422); CeresClone:1118546 (SEQ ID NO: 1423); CeresClone:967899 (SEQ ID NO: 1424); CeresClone:953793 (SEQ ID NO: 1425); CeresClone:1063637 (SEQ ID NO: 1426); CeresClone:1104229 (SEQ ID NO: 1427); CeresClone:604258 (SEQ ID NO: 1428); CeresClone:682422 (SEQ ID NO: 1429); CeresClone:620922 (SEQ ID NO: 1430); CeresClone:712495 (SEQ ID NO: 1431); CeresClone:639432 (SEQ ID NO: 1432); CeresClone:1489971 (SEQ ID NO: 1433); CeresClone:464504 (SEQ ID NO: 1435); CeresClone:627596 (SEQ ID NO: 1437); gi|12325138 (SEQ ID NO: 1438); CeresClone:1152303 (SEQ ID NO: 1439); gi|15222937 (SEQ ID NO: 1440); CeresClone:796158 (SEQ ID NO: 1441); gi|50916627 (SEQ ID NO: 1442); gi|50939101 (SEQ ID NO: 1443); gi|2739008 (SEQ ID NO: 1444); CeresClone:779234 (SEQ ID NO: 1445); gi|20197777 (SEQ ID NO: 1446); gi|5921925 (SEQ ID NO: 1447); CeresClone:29661 (SEQ ID NO: 1448); CeresClone:689576 (SEQ ID NO: 1449); CeresClone:729085 (SEQ ID NO: 1451); CeresClone:901184 (SEQ ID NO: 1452); gi|46242609 (SEQ ID NO: 1453); CeresClone:324157 (SEQ ID NO: 1454); CeresClone:1565969 (SEQ ID NO: 1455); gi|45593100 (SEQ ID NO: 1456); gi|50938719 (SEQ ID NO: 1457); CeresClone:1440579 (SEQ ID NO: 1458); CeresClone:527229 (SEQ ID NO: 1459); CeresClone:1351153 (SEQ ID NO: 1460); gi|7415614 (SEQ ID NO: 1461); gi|4006894 (SEQ ID NO: 1462); CeresClone:1011386 (SEQ ID NO: 1464); CeresClone:1462142 (SEQ ID NO: 1465); CeresClone:476264 (SEQ ID NO: 1466); CeresClone:6082 (SEQ ID NO: 1468); CeresClone:1068042 (SEQ ID NO: 1469); CeresClone:602291 (SEQ ID NO: 1470); gi|50945605 (SEQ ID NO: 1471); CeresClone:347137 (SEQ ID NO: 1472); CeresClone:894286 (SEQ ID NO: 1473); CeresClone:13812 (SEQ ID NO: 1475); CeresClone:1080126 (SEQ ID NO: 1476); CeresClone:873616 (SEQ ID NO: 1477); CeresClone:478304 (SEQ ID NO: 1478); CeresClone:32811 (SEQ ID NO: 1480); gi|50915438 (SEQ ID NO: 1481); gi|51979387 (SEQ ID NO: 1482); CeresClone:322953 (SEQ ID NO: 1483); CeresClone:1004568 (SEQ ID NO: 1484); CeresClone:224062 (SEQ ID NO: 1486); CeresClone:1490254 (SEQ ID NO: 1487); CeresClone:1074247 (SEQ ID NO: 1488); gi|30680080 (SEQ ID NO: 1489); CeresClone:20269 (SEQ ID NO: 1490); gi|50058911 (SEQ ID NO: 1491); CeresClone:1036315 (SEQ ID NO: 1492); CeresClone:592780 (SEQ ID NO: 1493); CeresClone:254065 (SEQ ID NO: 1495); CeresClone:39922 (SEQ ID NO: 1496); gi|21593540 (SEQ ID NO: 1497); CeresClone:477450 (SEQ ID NO: 1498); gi|32489377 (SEQ ID NO: 1499); CeresClone:241340 (SEQ ID NO: 1500); CeresClone:700178 (SEQ ID NO: 1501); CeresClone:22339 (SEQ ID NO: 1503); gi|17223670 (SEQ ID NO: 1504); gi|52548150 (SEQ ID NO: 1505); gi|52548152 (SEQ ID NO: 1506); gi|52548134 (SEQ ID NO: 1507); gi|6970411 (SEQ ID NO: 1508); gi|5031217 (SEQ ID NO: 1509); gi|14279306 (SEQ ID NO: 1510); gi|62132641 (SEQ ID NO: 1511); CeresClone:1043518 (SEQ ID NO: 1512); CeresClone:1046745 (SEQ ID NO: 1513); gi|33308109 (SEQ ID NO: 1514); gi|16973296 (SEQ ID NO: 1515); CeresClone:99784 (SEQ ID NO: 1517); gi|9759075 (SEQ ID NO: 1518); gi|12323398 (SEQ ID NO: 1519); gi|27808586 (SEQ ID NO: 1520); gi|12323395 (SEQ ID NO: 1521); gi|47232556 (SEQ ID NO: 1522); gi|6760443 (SEQ ID NO: 1523); gi|18025321 (SEQ ID NO: 1524); CeresClone:283499 (SEQ ID NO: 1525); gi|4808524 (SEQ ID NO: 1526); gi|602588 (SEQ ID NO: 1527); CeresClone:561287 (SEQ ID NO: 1528); CeresClone:751041 (SEQ ID NO: 1529); CeresClone:286311 (SEQ ID NO: 1530); CeresClone:570057 (SEQ ID NO: 1531); CeresClone:100319 (SEQ ID NO: 1533); CeresClone:625275 (SEQ ID NO: 1534); CeresClone:1246429 (SEQ ID NO: 1535); gi|37718893 (SEQ ID NO: 1536); CeresClone:937503 (SEQ ID NO: 1537); CeresClone:1549251 (SEQ ID NO: 1538); CeresClone:124720 (SEQ ID NO: 1540); CeresClone:975672 (SEQ ID NO: 1541); CeresClone:1044385 (SEQ ID NO: 1542); gi|55419650 (SEQ ID NO: 1543); gi|56384582 (SEQ ID NO: 1544); gi|57012880 (SEQ ID NO: 1545); gi|50929507 (SEQ ID NO: 1546); CeresClone:273307 (SEQ ID NO: 1547); CeresClone:288251 (SEQ ID NO: 1549); CeresClone:94739 (SEQ ID NO: 1550); CeresClone:35872 (SEQ ID NO: 1551); CeresClone:22599 (SEQ ID NO: 1552); CeresClone:1053778 (SEQ ID NO: 1553); CeresClone:855135 (SEQ ID NO: 1554); CeresClone:8014 (SEQ ID NO: 1556); gi|21594431 (SEQ ID NO: 1557); gi|7486482 (SEQ ID NO: 1558); gi|21700857 (SEQ ID NO: 1559); CeresClone:13186 (SEQ ID NO: 1561); CeresClone:16204 (SEQ ID NO: 1563); CeresClone:956177 (SEQ ID NO: 1564); CeresClone:721511 (SEQ ID NO: 1565); gi|18645 (SEQ ID NO: 1566); CeresClone:641329 (SEQ ID NO: 1567); CeresClone:782784 (SEQ ID NO: 1568); gi|1052956 (SEQ ID NO: 1569); gi|436424 (SEQ ID NO: 1570); gi|729737 (SEQ ID NO: 1571); CeresClone:1060767 (SEQ ID NO: 1572); CeresClone:101250 (SEQ ID NO: 1574); CeresClone:295792 (SEQ ID NO: 1575); CeresClone:285704 (SEQ ID NO: 1576); CeresClone:557178 (SEQ ID NO: 1577); CeresClone:754768 (SEQ ID NO: 1578); CeresClone:283597 (SEQ ID NO: 1580); CeresClone:407007 (SEQ ID NO: 1581); CeresClone:225383 (SEQ ID NO: 1582); gi|13936312 (SEQ ID NO: 1583); CeresClone:40501 (SEQ ID NO: 1584); gi|21593605 (SEQ ID NO: 1585); CeresClone:292789 (SEQ ID NO: 1587); CeresClone:996136 (SEQ ID NO: 1588); gi|62732981 (SEQ ID NO: 1589); gi|9965319 (SEQ ID NO: 1590); gi|15076949 (SEQ ID NO: 1591); gi|52353611 (SEQ ID NO: 1592); CeresClone:122726 (SEQ ID NO: 1593); gi|24496452 (SEQ ID NO: 1594); gi|20465865 (SEQ ID NO: 1595); gi|32186890 (SEQ ID NO: 1596); CeresClone:230603 (SEQ ID NO: 1597); gi|53759189 (SEQ ID NO: 1598); CeresClone:219282 (SEQ ID NO: 1599); CeresClone:331439 (SEQ ID NO: 1600); gi|50919951 (SEQ ID NO: 1601); CeresClone:338602 (SEQ ID NO: 1602); CeresClone:299306 (SEQ ID NO: 1603); CeresClone:1952 (SEQ ID NO: 1605); CeresClone:4289 (SEQ ID NO: 1607); gi|3927829 (SEQ ID NO: 1608); gi|30684022 (SEQ ID NO: 1609); CeresClone:7925 (SEQ ID NO: 1611); CeresClone:326385 (SEQ ID NO: 1612); CeresClone:10857 (SEQ ID NO: 1614); CeresClone:1334970 (SEQ ID NO: 1615); CeresClone:648816 (SEQ ID NO: 1616); CeresClone:617857 (SEQ ID NO: 1617); CeresClone:399368 (SEQ ID NO: 1618); CeresClone:19481 (SEQ ID NO: 1620); CeresClone:342958 (SEQ ID NO: 1621); CeresClone:632710 (SEQ ID NO: 1622); CeresClone:443426 (SEQ ID NO: 1623); CeresClone:699425 (SEQ ID NO: 1624); CeresClone:1279273 (SEQ ID NO: 1625); CeresClone:28979 (SEQ ID NO: 1627); CeresClone:1084062 (SEQ ID NO: 1628); CeresClone:302875 (SEQ ID NO: 1629); CeresClone:1347193 (SEQ ID NO: 1630); CeresClone:653284 (SEQ ID NO: 1631); CeresClone:1605870 (SEQ ID NO: 1632); CeresClone:1606960 (SEQ ID NO: 1633); CeresClone:1608365 (SEQ ID NO: 1634); CeresClone:1054986 (SEQ ID NO: 1635); CeresClone:37969 (SEQ ID NO: 1637); CeresClone:113719 (SEQ ID NO: 1639); gi|22531225 (SEQ ID NO: 1640); CeresClone:713993 (SEQ ID NO: 1641); gi|50939715 (SEQ ID NO: 1642); CeresClone:288779 (SEQ ID NO: 1643); CeresClone:297897 (SEQ ID NO: 1644); gi|31432214 (SEQ ID NO: 1645); gi|31432206 (SEQ ID NO: 1646); gi|50928869 (SEQ ID NO: 1647); CeresClone:859287 (SEQ ID NO: 1648); gi|31432164 (SEQ ID NO: 1649); gi|50942543 (SEQ ID NO: 1650); CeresClone:147593 (SEQ ID NO: 1652); CeresClone:1090124 (SEQ ID NO: 1653); gi|8778541 (SEQ ID NO: 1654); CeresClone:912191 (SEQ ID NO: 1655); CeresClone:297709 (SEQ ID NO: 1656); CeresClone:937009 (SEQ ID NO: 1657); gi|34908220 (SEQ ID NO: 1658); CeresClone:1052536 (SEQ ID NO: 1659); CeresClone:630011 (SEQ ID NO: 1660); CeresClone:150798 (SEQ ID NO: 1662); CeresClone:814247 (SEQ ID NO: 1663); CeresClone:467982 (SEQ ID NO: 1664); CeresClone:541495 (SEQ ID NO: 1665); CeresClone:152076 (SEQ ID NO: 1667); gi|21436345 (SEQ ID NO: 1668); CeresClone:543435 (SEQ ID NO: 1669); gi|282960 (SEQ ID NO: 1670); CeresClone:291623 (SEQ ID NO: 1671); gi|50904335 (SEQ ID NO: 1672); CeresClone:154031 (SEQ ID NO: 1674); CeresClone:636116 (SEQ ID NO: 1675); CeresClone:286081 (SEQ ID NO: 1676); CeresClone:246416 (SEQ ID NO: 1678); gi|9367307 (SEQ ID NO: 1679); gi|62510920 (SEQ ID NO: 1680); gi|6175371 (SEQ ID NO: 1681); gi|7677036 (SEQ ID NO: 1682); gi|33309864 (SEQ ID NO: 1683); gi|6467974 (SEQ ID NO: 1684); gi|1483232 (SEQ ID NO: 1685); gi|33355661 (SEQ ID NO: 1686); gi|30090030 (SEQ ID NO: 1687); gi|32478105 (SEQ ID NO: 1688); gi|33391153 (SEQ ID NO: 1689); CeresClone:1314092 (SEQ ID NO: 1690); gi|39843110 (SEQ ID NO: 1691); CeresClone:557009 (SEQ ID NO: 1693); CeresClone:96 (SEQ ID NO: 1695); CeresClone:949 (SEQ ID NO: 1697); gi|40787165 (SEQ ID NO: 1698); gi|33943521 (SEQ ID NO: 1699); gi|22854966 (SEQ ID NO: 1700); gi|22854942 (SEQ ID NO: 1701); gi|22854970 (SEQ ID NO: 1702); gi|22854950 (SEQ ID NO: 1703); gi|22854918 (SEQ ID NO: 1704); gi|22854982 (SEQ ID NO: 1705); gi|22854908 (SEQ ID NO: 1706); gi|22854910 (SEQ ID NO: 1707); gi|22854934 (SEQ ID NO: 1708); gi|22854916 (SEQ ID NO: 1709); CeresClone:2036 (SEQ ID NO: 1711); CeresClone:463096 (SEQ ID NO: 1712); gi|42568400 (SEQ ID NO: 1713); gi|10177354 (SEQ ID NO: 1714); gi|7489457 (SEQ ID NO: 1715); CeresClone:385771 (SEQ ID NO: 1716); CeresClone:729756 (SEQ ID NO: 1717); CeresClone:615259 (SEQ ID NO: 1718); CeresClone:18857 (SEQ ID NO: 1720); CeresClone:1334990 (SEQ ID NO: 1721); gi|20466045 (SEQ ID NO: 1722); CeresClone:938230 (SEQ ID NO: 1723); gi|52353703 (SEQ ID NO: 1724); gi|12711287 (SEQ ID NO: 1725); CeresClone:305252 (SEQ ID NO: 1726); CeresClone:473814 (SEQ ID NO: 1727); CeresClone:23518 (SEQ ID NO: 1729); CeresClone:1070069 (SEQ ID NO: 1730); CeresClone:20681 (SEQ ID NO: 1731); gi|6957719 (SEQ ID NO: 1732); gi|5532505 (SEQ ID NO: 1733); CeresClone:553599 (SEQ ID NO: 1734); CeresClone:1113804 (SEQ ID NO: 1735); CeresClone:479777 (SEQ ID NO: 1736); CeresClone:1066903 (SEQ ID NO: 1737); gi|4128206 (SEQ ID NO: 1738); gi|57471724 (SEQ ID NO: 1739); CeresClone:1283519 (SEQ ID NO: 1740); CeresClone:283165 (SEQ ID NO: 1741); gi|55167942 (SEQ ID NO: 1742); CeresClone:259723 (SEQ ID NO: 1743); gi|22671664 (SEQ ID NO: 1744); CeresClone:156655 (SEQ ID NO: 1746); CeresClone:1342938 (SEQ ID NO: 1747); CeresClone:302736 (SEQ ID NO: 1748); gi|51451351 (SEQ ID NO: 1749); CeresClone:2273 (SEQ ID NO: 1751); CeresClone:963126 (SEQ ID NO: 1752); CeresClone:1118497 (SEQ ID NO: 1753); CeresClone:4043 (SEQ ID NO: 1755); CeresClone:5198 (SEQ ID NO: 1757); CeresClone:954882 (SEQ ID NO: 1758); gi|34896996 (SEQ ID NO: 1759); CeresClone:370168 (SEQ ID NO: 1760); CeresClone:1577130 (SEQ ID NO: 1761); CeresClone:562212 (SEQ ID NO: 1762); CeresClone:1046446 (SEQ ID NO: 1763); CeresClone:1520658 (SEQ ID NO: 1764); CeresClone:13767 (SEQ ID NO: 1766); gi|57900163 (SEQ ID NO: 1767); CeresClone:289382 (SEQ ID NO: 1768); CeresClone:1168763 (SEQ ID NO: 1769); CeresClone:243668 (SEQ ID NO: 1770); CeresClone:579504 (SEQ ID NO: 1771); CeresClone:467253 (SEQ ID NO: 1772); CeresClone:29150 (SEQ ID NO: 1774); CeresClone:36801 (SEQ ID NO: 1775); CeresClone:470787 (SEQ ID NO: 1776); CeresClone:34480 (SEQ ID NO: 1778); gi|17028170 (SEQ ID NO: 1779); gi|15864561 (SEQ ID NO: 1780); CeresClone:1110310 (SEQ ID NO: 1781); gi|7657879 (SEQ ID NO: 1782); gi|6069464 (SEQ ID NO: 1783); gi|56201842 (SEQ ID NO: 1784); CeresClone:38625 (SEQ ID NO: 1786); CeresClone:576522 (SEQ ID NO: 1787); gi|50932981 (SEQ ID NO: 1788); CeresClone:381453 (SEQ ID NO: 1789); CeresClone:764831 (SEQ ID NO: 1790); CeresClone:39351 (SEQ ID NO: 1792); CeresClone:1016565 (SEQ ID NO: 1793); CeresClone:687466 (SEQ ID NO: 1794); CeresClone:343468 (SEQ ID NO: 1795); CeresClone:985017 (SEQ ID NO: 1796); CeresClone:213850 (SEQ ID NO: 1797); CeresClone:463478 (SEQ ID NO: 1798); CeresClone:1058593 (SEQ ID NO: 1799); CeresClone:153053 (SEQ ID NO: 1801); CeresClone:29150 (SEQ ID NO: 1802); CeresClone:1334525 (SEQ ID NO: 1803); CeresClone:470787 (SEQ ID NO: 1804); CeresClone:159318 (SEQ ID NO: 1806); CeresClone:872284 (SEQ ID NO: 1807); CeresClone:29150 (SEQ ID NO: 1808); CeresClone:1334525 (SEQ ID NO: 1809); CeresClone:470787 (SEQ ID NO: 1810); CeresClone:241379 (SEQ ID NO: 1812); CeresClone:1032471 (SEQ ID NO: 1813); CeresClone:467335 (SEQ ID NO: 1814); CeresClone:1600660 (SEQ ID NO: 1815); CeresClone:620092 (SEQ ID NO: 1816); CeresClone:15190 (SEQ ID NO: 1817); CeresClone:1383206 (SEQ ID NO: 1818); CeresClone:9568 (SEQ ID NO: 1819); CeresClone:1062254 (SEQ ID NO: 1820); CeresClone:1208311 (SEQ ID NO: 1821); CeresClone:5220 (SEQ ID NO: 1823); CeresClone:476857 (SEQ ID NO: 1824); gi|55296987 (SEQ ID NO: 1825); CeresClone:11214 (SEQ ID NO: 1827); gi|21281125 (SEQ ID NO: 1828); gi|7141083 (SEQ ID NO: 1829); CeresClone:36277 (SEQ ID NO: 1830); CeresClone:977208 (SEQ ID NO: 1831); gi|14422257 (SEQ ID NO: 1832); gi|14422255 (SEQ ID NO: 1833); CeresClone:1294554 (SEQ ID NO: 1834); CeresClone:1117994 (SEQ ID NO: 1835); CeresClone:697140 (SEQ ID NO: 1836); CeresClone:264627 (SEQ ID NO: 1837); CeresClone:272165 (SEQ ID NO: 1838); CeresClone:338740 (SEQ ID NO: 1839); CeresClone:472119 (SEQ ID NO: 1840); CeresClone:563522 (SEQ ID NO: 1842); CeresClone:1116523 (SEQ ID NO: 1843); CeresClone:973582 (SEQ ID NO: 1844); CeresClone:104017 (SEQ ID NO: 1845); gi|21536580 (SEQ ID NO: 1846); CeresClone:946814 (SEQ ID NO: 1847); CeresClone:35419 (SEQ ID NO: 1848); gi|20466099 (SEQ ID NO: 1849); gi|21593032 (SEQ ID NO: 1850); CeresClone:1276697 (SEQ ID NO: 1851); CeresClone:988038 (SEQ ID NO: 1852); CeresClone:631994 (SEQ ID NO: 1853); CeresClone:457248 (SEQ ID NO: 1854); CeresClone:370255 (SEQ ID NO: 1855); CeresClone:938645 (SEQ ID NO: 1856); CeresClone:685517 (SEQ ID NO: 1857); CeresClone:395326 (SEQ ID NO: 1858); gi|50924115 (SEQ ID NO: 1859); CeresClone:21563 (SEQ ID NO: 1861); CeresClone:103157 (SEQ ID NO: 1862); CeresClone:528914 (SEQ ID NO: 1863); gi|20465737 (SEQ ID NO: 1864); gi|62318522 (SEQ ID NO: 1865); gi|55296017 (SEQ ID NO: 1866); CeresClone:1589040 (SEQ ID NO: 1867); CeresClone:6397 (SEQ ID NO: 1869); gi|57012876 (SEQ ID NO: 1870); gi|3342211 (SEQ ID NO: 1871); CeresClone:14555 (SEQ ID NO: 1873); CeresClone:1339647 (SEQ ID NO: 1874); gi|34146804 (SEQ ID NO: 1875); gi|3980415 (SEQ ID NO: 1876); CeresClone:2618 (SEQ ID NO: 1877); gi|3980399 (SEQ ID NO: 1878); gi|21554716 (SEQ ID NO: 1879); CeresClone:480984 (SEQ ID NO: 1880); CeresClone:1371320 (SEQ ID NO: 1881); CeresClone:4067 (SEQ ID NO: 1883); CeresClone:1117707 (SEQ ID NO: 1884); CeresClone:873165 (SEQ ID NO: 1885); CeresClone:41682 (SEQ ID NO: 1886); CeresClone:1345188 (SEQ ID NO: 1887); gi|30679289 (SEQ ID NO: 1888); gi|21554019 (SEQ ID NO: 1889); CeresClone:1090313 (SEQ ID NO: 1890); CeresClone:971413 (SEQ ID NO: 1891); CeresClone:966070 (SEQ ID NO: 1892); CeresClone:719050 (SEQ ID NO: 1893); CeresClone:708048 (SEQ ID NO: 1894); CeresClone:4734 (SEQ ID NO: 1896); CeresClone:951040 (SEQ ID NO: 1897); gi|9294226 (SEQ ID NO: 1898); CeresClone:703180 (SEQ ID NO: 1899); CeresClone:560681 (SEQ ID NO: 1900); CeresClone:13391 (SEQ ID NO: 1902); CeresClone:28643 (SEQ ID NO: 1904); gi|18377454 (SEQ ID NO: 1905); CeresClone:27627 (SEQ ID NO: 1906); CeresClone:25350 (SEQ ID NO: 1907); gi|21554374 (SEQ ID NO: 1908); CeresClone:1123729 (SEQ ID NO: 1909); CeresClone:1372632 (SEQ ID NO: 1910); CeresClone:1374198 (SEQ ID NO: 1911); CeresClone:1421186 (SEQ ID NO: 1912); CeresClone:1078224 (SEQ ID NO: 1913); CeresClone:1039916 (SEQ ID NO: 1914); CeresClone:1051017 (SEQ ID NO: 1915); gi|445612 (SEQ ID NO: 1916); CeresClone:733804 (SEQ ID NO: 1918); CeresClone:653656 (SEQ ID NO: 1919); CeresClone:663844 (SEQ ID NO: 1920); gi|28416803 (SEQ ID NO: 1921); CeresClone:18200 (SEQ ID NO: 1922); CeresClone:1247092 (SEQ ID NO: 1923); CeresClone:560681 (SEQ ID NO: 1924); CeresClone:562428 (SEQ ID NO: 1925); gi|31431968 (SEQ ID NO: 1926); CeresClone:486120 (SEQ ID NO: 1927); CeresClone:503296 (SEQ ID NO: 1928); CeresClone:9221 (SEQ ID NO: 1930); CeresClone:975562 (SEQ ID NO: 1931); CeresClone:706764 (SEQ ID NO: 1932); CeresClone:588880 (SEQ ID NO: 1933); gi|16566316 (SEQ ID NO: 1934); CeresClone:5455 (SEQ ID NO: 1935); gi|42374767 (SEQ ID NO: 1936); gi|28628203 (SEQ ID NO: 1937); gi|37695573 (SEQ ID NO: 1938); CeresClone:628637 (SEQ ID NO: 1939); CeresClone:628130 (SEQ ID NO: 1940); gi|28628205 (SEQ ID NO: 1941); CeresClone:1061370 (SEQ ID NO: 1942); CeresClone:11929 (SEQ ID NO: 1944); CeresClone:7108 (SEQ ID NO: 1945); CeresClone:275791 (SEQ ID NO: 1946); CeresClone:33231 (SEQ ID NO: 1947); CeresClone:1379318 (SEQ ID NO: 1948); CeresClone:39154 (SEQ ID NO: 1949); CeresClone:25220 (SEQ ID NO: 1950); CeresClone:546486 (SEQ ID NO: 1951); CeresClone:909689 (SEQ ID NO: 1952); CeresClone:868632 (SEQ ID NO: 1953); CeresClone:12071 (SEQ ID NO: 1955); CeresClone:538817 (SEQ ID NO: 1956); gi|55419652 (SEQ ID NO: 1957); gi|30577630 (SEQ ID NO: 1958); gi|1183866 (SEQ ID NO: 1959); gi|62856979 (SEQ ID NO: 1960); CeresClone:13625 (SEQ ID NO: 1962); CeresClone:873093 (SEQ ID NO: 1963); CeresClone:608685 (SEQ ID NO: 1964); CeresClone:663726 (SEQ ID NO: 1965); CeresClone:855086 (SEQ ID NO: 1966); CeresClone:647910 (SEQ ID NO: 1967); CeresClone:1524364 (SEQ ID NO: 1968); CeresClone:686525 (SEQ ID NO: 1969); CeresClone:225086 (SEQ ID NO: 1970); CeresClone:16865 (SEQ ID NO: 1972); CeresClone:1605695 (SEQ ID NO: 1973); CeresClone:437144 (SEQ ID NO: 1974); CeresClone:1380019 (SEQ ID NO: 1975); CeresClone:1031152 (SEQ ID NO: 1976); CeresClone:1431307 (SEQ ID NO: 1977); CeresClone:350577 (SEQ ID NO: 1978); CeresClone:617835 (SEQ ID NO: 1979); CeresClone:1521928 (SEQ ID NO: 1980); CeresClone:1437721 (SEQ ID NO: 1981); CeresClone:702116 (SEQ ID NO: 1982); CeresClone:1591070 (SEQ ID NO: 1983); CeresClone:256705 (SEQ ID NO: 1984); CeresClone:1357060 (SEQ ID NO: 1985); CeresClone:1531983 (SEQ ID NO: 1986); CeresClone:376667 (SEQ ID NO: 1987); CeresClone:18246 (SEQ ID NO: 1989); CeresClone:1376280 (SEQ ID NO: 1990); CeresClone:340652 (SEQ ID NO: 1991); CeresClone:695982 (SEQ ID NO: 1992); CeresClone:295402 (SEQ ID NO: 1993); CeresClone:31044 (SEQ ID NO: 1995); CeresClone:902699 (SEQ ID NO: 1996); CeresClone:709819 (SEQ ID NO: 1997); gi|37536842 (SEQ ID NO: 1998); gi|21908034 (SEQ ID NO: 1999); gi|25990951 (SEQ ID NO: 2000); CeresClone:38635 (SEQ ID NO: 2002); CeresClone:1375513 (SEQ ID NO: 2003); CeresClone:96978 (SEQ ID NO: 2004); gi|30017229 (SEQ ID NO: 2005); CeresClone:1242841 (SEQ ID NO: 2006); gi|12651665 (SEQ ID NO: 2007); CeresClone:39155 (SEQ ID NO: 2009); CeresClone:676435 (SEQ ID NO: 2010); CeresClone:107988 (SEQ ID NO: 2012); CeresClone:948896 (SEQ ID NO: 2013); gi|50878365 (SEQ ID NO: 2014); CeresClone:685420 (SEQ ID NO: 2015); CeresClone:705978 (SEQ ID NO: 2016); CeresClone:109912 (SEQ ID NO: 2018); CeresClone:966236 (SEQ ID NO: 2019); CeresClone:154718 (SEQ ID NO: 2021); gi|2832408 (SEQ ID NO: 2022); gi|50872446 (SEQ ID NO: 2023); CeresClone:226122 (SEQ ID NO: 2025); CeresClone:425913 (SEQ ID NO: 2026); CeresClone:888225 (SEQ ID NO: 2027); gi|40645413 (SEQ ID NO: 2028); gi|58891213 (SEQ ID NO: 2029); gi|58891235 (SEQ ID NO: 2030); gi|41745674 (SEQ ID NO: 2031); CeresClone:545652 (SEQ ID NO: 2032); gi|58891129 (SEQ ID NO: 2033); gi|58891059 (SEQ ID NO: 2034); gi|60649824 (SEQ ID NO: 2035); gi|58891028 (SEQ ID NO: 2036); CeresClone:9132 (SEQ ID NO: 2037); CeresClone:953501 (SEQ ID NO: 2038); CeresClone:691319 (SEQ ID NO: 2040); CeresClone:1475648 (SEQ ID NO: 2041); gi|30725634 (SEQ ID NO: 2042); CeresClone:256148 (SEQ ID NO: 2044); CeresClone:641 (SEQ ID NO: 2046); CeresClone:620977 (SEQ ID NO: 2047); CeresClone:338717 (SEQ ID NO: 2048); CeresClone:697370 (SEQ ID NO: 2049); CeresClone:3819 (SEQ ID NO: 2051); CeresClone:338602 (SEQ ID NO: 2052); CeresClone:299306 (SEQ ID NO: 2053); CeresClone:122726 (SEQ ID NO: 2054); CeresClone:292789 (SEQ ID NO: 2055); CeresClone:1073372 (SEQ ID NO: 2056); CeresClone:327971 (SEQ ID NO: 2057); CeresClone:227487 (SEQ ID NO: 2058); CeresClone:996136 (SEQ ID NO: 2059); CeresClone:116045 (SEQ ID NO: 2060); CeresClone:331439 (SEQ ID NO: 2061); CeresClone:230603 (SEQ ID NO: 2062); CeresClone:219282 (SEQ ID NO: 2063); CeresClone:25785 (SEQ ID NO: 2064); CeresClone:41421 (SEQ ID NO: 2065); CeresClone:294922 (SEQ ID NO: 2066); CeresClone:1549130 (SEQ ID NO: 2067); CeresClone:223048 (SEQ ID NO: 2068); CeresClone:3853 (SEQ ID NO: 2070); CeresClone:478120 (SEQ ID NO: 2071); CeresClone:375711 (SEQ ID NO: 2072); gi|50878369 (SEQ ID NO: 2073); CeresClone:8133 (SEQ ID NO: 2075); CeresClone:966755 (SEQ ID NO: 2076); CeresClone:584341 (SEQ ID NO: 2077); CeresClone:466978 (SEQ ID NO: 2078); CeresClone:15343 (SEQ ID NO: 2080); CeresClone:773730 (SEQ ID NO: 2081); CeresClone:729952 (SEQ ID NO: 2082); CeresClone:276252 (SEQ ID NO: 2083); CeresClone:22007 (SEQ ID NO: 2085); CeresClone:700212 (SEQ ID NO: 2086); gi|50939031 (SEQ ID NO: 2087); CeresClone:23771 (SEQ ID NO: 2089); CeresClone:1429265 (SEQ ID NO: 2090); CeresClone:1050058 (SEQ ID NO: 2091); CeresClone:312541 (SEQ ID NO: 2092); CeresClone:1544938 (SEQ ID NO: 2093); CeresClone:210309 (SEQ ID NO: 2094); CeresClone:291474 (SEQ ID NO: 2095); CeresClone:221519 (SEQ ID NO: 2096); CeresClone:297035 (SEQ ID NO: 2097); CeresClone:1064683 (SEQ ID NO: 2098); CeresClone:24644 (SEQ ID NO: 2100); CeresClone:27197 (SEQ ID NO: 2102); CeresClone:980747 (SEQ ID NO: 2103); CeresClone:1075340 (SEQ ID NO: 2104); gi|15220305 (SEQ ID NO: 2105); CeresClone:580349 (SEQ ID NO: 2106); gi|50902072 (SEQ ID NO: 2107); CeresClone:219387 (SEQ ID NO: 2108); CeresClone:325927 (SEQ ID NO: 2109); CeresClone:699286 (SEQ ID NO: 2110); CeresClone:33802 (SEQ ID NO: 2112); CeresClone:979847 (SEQ ID NO: 2113); gi|18379174 (SEQ ID NO: 2114); CeresClone:603261 (SEQ ID NO: 2115); gi|51964500 (SEQ ID NO: 2116); CeresClone:34210 (SEQ ID NO: 2118); gi|21745398 (SEQ ID NO: 2119); CeresClone:27810 (SEQ ID NO: 2120); gi|21555401 (SEQ ID NO: 2121); gi|27311653 (SEQ ID NO: 2122); CeresClone:581207 (SEQ ID NO: 2123); CeresClone:306792 (SEQ ID NO: 2124); CeresClone:321760 (SEQ ID NO: 2125); CeresClone:284101 (SEQ ID NO: 2126); gi|34577127 (SEQ ID NO: 2127); gi|50904897 (SEQ ID NO: 2128); gi|13661020 (SEQ ID NO: 2129); CeresClone:38757 (SEQ ID NO: 2131); gi|31430853 (SEQ ID NO: 2132); CeresClone:570295 (SEQ ID NO: 2133); gi|34914816 (SEQ ID NO: 2134); CeresClone:38785 (SEQ ID NO: 2136); CeresClone:1078352 (SEQ ID NO: 2137); CeresClone:479285 (SEQ ID NO: 2138); CeresClone:264196 (SEQ ID NO: 2139); CeresClone:512972 (SEQ ID NO: 2140); CeresClone:38843 (SEQ ID NO: 2142); CeresClone:263281 (SEQ ID NO: 2143); CeresClone:918913 (SEQ ID NO: 2144); CeresClone:239640 (SEQ ID NO: 2145); CeresClone:798115 (SEQ ID NO: 2146); CeresClone:219950 (SEQ ID NO: 2147); CeresClone:39127 (SEQ ID NO: 2149); CeresClone:656297 (SEQ ID NO: 2150); CeresClone:769994 (SEQ ID NO: 2151); CeresClone:493668 (SEQ ID NO: 2152); CeresClone:1608079 (SEQ ID NO: 2153); CeresClone:95855 (SEQ ID NO: 2155); gi|46396244 (SEQ ID NO: 2156); CeresClone:1041952 (SEQ ID NO: 2157); CeresClone:99763 (SEQ ID NO: 2159); CeresClone:975383 (SEQ ID NO: 2160); gi|6969974 (SEQ ID NO: 2161); CeresClone:556334 (SEQ ID NO: 2162); gi|25809052 (SEQ ID NO: 2163); CeresClone:247046 (SEQ ID NO: 2164); gi|25044839 (SEQ ID NO: 2165); CeresClone:1608166 (SEQ ID NO: 2166); gi|56606538 (SEQ ID NO: 2167); CeresClone:106135 (SEQ ID NO: 2169); CeresClone:267657 (SEQ ID NO: 2171); CeresClone:719679 (SEQ ID NO: 2172); CeresClone:545208 (SEQ ID NO: 2174); gi|6862916 (SEQ ID NO: 2175); CeresClone:336092 (SEQ ID NO: 2176); gi|57900676 (SEQ ID NO: 2177); CeresClone:546490 (SEQ ID NO: 2179); gi|56784222 (SEQ ID NO: 2180); CeresClone:566317 (SEQ ID NO: 2182); gi|62320932 (SEQ ID NO: 2183); CeresClone:961315 (SEQ ID NO: 2184); CeresClone:786659 (SEQ ID NO: 2185); CeresClone:276062 (SEQ ID NO: 2186); CeresClone:284925 (SEQ ID NO: 2187); CeresClone:28003 (SEQ ID NO: 2189); CeresClone:980499 (SEQ ID NO: 2190); CeresClone:1381318 (SEQ ID NO: 2191); CeresClone:225200 (SEQ ID NO: 2193); gi|38093751 (SEQ ID NO: 2194); CeresClone:646162 (SEQ ID NO: 2195); CeresClone:19080 (SEQ ID NO: 2197); CeresClone:125409 (SEQ ID NO: 2199); CeresClone:301326 (SEQ ID NO: 2201); CeresClone:908026 (SEQ ID NO: 2202); CeresClone:681088 (SEQ ID NO: 2204); gi|18378818 (SEQ ID NO: 2205); gi|25406719 (SEQ ID NO: 2206); CeresClone:25524 (SEQ ID NO: 2207); gi|21554403 (SEQ ID NO: 2208); CeresClone:973892 (SEQ ID NO: 2209); CeresClone:681222 (SEQ ID NO: 2211); CeresClone:594823 (SEQ ID NO: 2212); gi|56381907 (SEQ ID NO: 2213); gi|16323159 (SEQ ID NO: 2214); CeresClone:298090 (SEQ ID NO: 2215); CeresClone:883658 (SEQ ID NO: 2216); CeresClone:1605060 (SEQ ID NO: 2217); gi|50929183 (SEQ ID NO: 2218); CeresClone:11975 (SEQ ID NO: 2220); gi|11096016 (SEQ ID NO: 2221); CeresClone:1592057 (SEQ ID NO: 2222); CeresClone:285432 (SEQ ID NO: 2223); CeresClone:1103933 (SEQ ID NO: 2224); CeresClone:1017106 (SEQ ID NO: 2225); CeresClone:1558718 (SEQ ID NO: 2226); CeresClone:986507 (SEQ ID NO: 2227); CeresClone:1276499 (SEQ ID NO: 2228); CeresClone:772062 (SEQ ID NO: 2229); CeresClone:1061444 (SEQ ID NO: 2230); CeresClone:381987 (SEQ ID NO: 2231); CeresClone:373922 (SEQ ID NO: 2232); CeresClone:14105 (SEQ ID NO: 2234); gi|20259079 (SEQ ID NO: 2235); CeresClone:963952 (SEQ ID NO: 2236); gi|62319459 (SEQ ID NO: 2237); CeresClone:654289 (SEQ ID NO: 2238); CeresClone:626552 (SEQ ID NO: 2239); CeresClone:156807 (SEQ ID NO: 2241); CeresClone:281759 (SEQ ID NO: 2242); CeresClone:1603612 (SEQ ID NO: 2243); CeresClone:592749 (SEQ ID NO: 2244); CeresClone:228787 (SEQ ID NO: 2246); CeresClone:219824 (SEQ ID NO: 2247); CeresClone:266080 (SEQ ID NO: 2248); gi|29372746 (SEQ ID NO: 2249); gi|2529340 (SEQ ID NO: 2250); gi|2130078 (SEQ ID NO: 2251); gi|34903684 (SEQ ID NO: 2252); CeresClone:513630 (SEQ ID NO: 2253); CeresClone:32791 (SEQ ID NO: 2254); CeresClone:1010174 (SEQ ID NO: 2255); CeresClone:1046745 (SEQ ID NO: 2256); CeresClone:1251169 (SEQ ID NO: 2257); CeresClone:537272 (SEQ ID NO: 2259); CeresClone:625922 (SEQ ID NO: 2260); gi|20977642 (SEQ ID NO: 2261); CeresClone:3000 (SEQ ID NO: 2262); gi|55276120 (SEQ ID NO: 2263); gi|7446291 (SEQ ID NO: 2264); gi|27413549 (SEQ ID NO: 2265); gi|54042995 (SEQ ID NO: 2266); gi|22074785 (SEQ ID NO: 2267); gi|6016221 (SEQ ID NO: 2268); CeresClone:1250120 (SEQ ID NO: 2269); gi|18389212 (SEQ ID NO: 2270); CeresClone:239250 (SEQ ID NO: 2271); gi|4098240 (SEQ ID NO: 2272); gi|57116572 (SEQ ID NO: 2273); gi|57116570 (SEQ ID NO: 2274); CeresClone:608818 (SEQ ID NO: 2276); gi|4371295 (SEQ ID NO: 2277); CeresClone:1561235 (SEQ ID NO: 2278); gi|20147111 (SEQ ID NO: 2279); gi|30409461 (SEQ ID NO: 2280); CeresClone:1559765 (SEQ ID NO: 2281); CeresClone:455104 (SEQ ID NO: 2282); CeresClone:5055 (SEQ ID NO: 2284); gi|1617211 (SEQ ID NO: 2285); gi|20385588 (SEQ ID NO: 2286); CeresClone:511680 (SEQ ID NO: 2287); CeresClone:467502 (SEQ ID NO: 2288); CeresClone:226181 (SEQ ID NO: 2289); CeresClone:227805 (SEQ ID NO: 2290); CeresClone:246416 (SEQ ID NO: 2291); CeresClone:1314092 (SEQ ID NO: 2292); CeresClone:331626 (SEQ ID NO: 2294); gi|50940449 (SEQ ID NO: 2295); gi|21586457 (SEQ ID NO: 2296); gi|5230654 (SEQ ID NO: 2297); gi|24967140 (SEQ ID NO: 2298); gi|16549066 (SEQ ID NO: 2299); CeresClone:1314092 (SEQ ID NO: 2300); gi|4204232 (SEQ ID NO: 2301); gi|39843112 (SEQ ID NO: 2302); gi|39843110 (SEQ ID NO: 2303); gi|33309864 (SEQ ID NO: 2304); gi|7592642 (SEQ ID NO: 2305); gi|6606070 (SEQ ID NO: 2306); CeresClone:35742 (SEQ ID NO: 2308); gi|6984233 (SEQ ID NO: 2309); CeresClone:298125 (SEQ ID NO: 2310); gi|54291188 (SEQ ID NO: 2311); CeresClone:22382 (SEQ ID NO: 2313); CeresClone:1094248 (SEQ ID NO: 2314); CeresClone:119790 (SEQ ID NO: 2316); CeresClone:1350005 (SEQ ID NO: 2317); gi|23308275 (SEQ ID NO: 2318); CeresClone:1379507 (SEQ ID NO: 2319); gi|3955021 (SEQ ID NO: 2320); gi|40233087 (SEQ ID NO: 2321); CeresClone:609489 (SEQ ID NO: 2322); CeresClone:561279 (SEQ ID NO: 2323); gi|34909272 (SEQ ID NO: 2324); gi|56201899 (SEQ ID NO: 2325); CeresClone:34976 (SEQ ID NO: 2327); CeresClone:36334 (SEQ ID NO: 2329); CeresClone:690176 (SEQ ID NO: 2330); CeresClone:574698 (SEQ ID NO: 2331); CeresClone:234510 (SEQ ID NO: 2332); CeresClone:390429 (SEQ ID NO: 2333); CeresClone:102248 (SEQ ID NO: 2335); gi|28466849 (SEQ ID NO: 2336); CeresClone:1061902 (SEQ ID NO: 2337); CeresClone:827699 (SEQ ID NO: 2338); CeresClone:562697 (SEQ ID NO: 2339); CeresClone:218046 (SEQ ID NO: 2340); CeresClone:758144 (SEQ ID NO: 2341); gi|50913049 (SEQ ID NO: 2342); gi|51536211 (SEQ ID NO: 2343); CeresClone:305610 (SEQ ID NO: 2344); CeresClone:218076 (SEQ ID NO: 2345); gi|50946783 (SEQ ID NO: 2346); CeresClone:157709 (SEQ ID NO: 2348); gi|42822063 (SEQ ID NO: 2349); CeresClone:24885 (SEQ ID NO: 2351); CeresClone:693935 (SEQ ID NO: 2352); CeresClone:359934 (SEQ ID NO: 2353); CeresClone:294598 (SEQ ID NO: 2354); CeresClone:839270 (SEQ ID NO: 2355); CeresClone:27810 (SEQ ID NO: 2357); gi|21745398 (SEQ ID NO: 2358); gi|22655196 (SEQ ID NO: 2359); CeresClone:34210 (SEQ ID NO: 2360); gi|21592927 (SEQ ID NO: 2361); CeresClone:581207 (SEQ ID NO: 2362); gi|50904897 (SEQ ID NO: 2363); gi|13661020 (SEQ ID NO: 2364); gi|34577127 (SEQ ID NO: 2365); CeresClone:284101 (SEQ ID NO: 2366); CeresClone:259619 (SEQ ID NO: 2367); CeresClone:306792 (SEQ ID NO: 2368); CeresClone:321760 (SEQ ID NO: 2369); CeresClone:40708 (SEQ ID NO: 2371); CeresClone:670593 (SEQ ID NO: 2372); CeresClone:387067 (SEQ ID NO: 2373); CeresClone:27375 (SEQ ID NO: 2374); CeresClone:280334 (SEQ ID NO: 2375); CeresClone:1256091 (SEQ ID NO: 2376); CeresClone:677474 (SEQ ID NO: 2377); CeresClone:618269 (SEQ ID NO: 2378); CeresClone:40968 (SEQ ID NO: 2379); CeresClone:113577 (SEQ ID NO: 2380); CeresClone:116117 (SEQ ID NO: 2382); CeresClone:467735 (SEQ ID NO: 2383); CeresClone:333643 (SEQ ID NO: 2384); gi|57899379 (SEQ ID NO: 2385); CeresClone:538933 (SEQ ID NO: 2387); CeresClone:470921 (SEQ ID NO: 2388); CeresClone:1367041 (SEQ ID NO: 2389); CeresClone:1557119 (SEQ ID NO: 2390); CeresClone:763949 (SEQ ID NO: 2391); CeresClone:113269 (SEQ ID NO: 2392); CeresClone:115393 (SEQ ID NO: 2393); CeresClone:452749 (SEQ ID NO: 2394); CeresClone:39481 (SEQ ID NO: 2395); CeresClone:677448 (SEQ ID NO: 2396); CeresClone:519 (SEQ ID NO: 2398); CeresClone:1247092 (SEQ ID NO: 2399); gi|28416803 (SEQ ID NO: 2400); CeresClone:18200 (SEQ ID NO: 2401); CeresClone:653656 (SEQ ID NO: 2402); CeresClone:663844 (SEQ ID NO: 2403); CeresClone:733804 (SEQ ID NO: 2404); CeresClone:703180 (SEQ ID NO: 2405); CeresClone:560681 (SEQ ID NO: 2406); CeresClone:562428 (SEQ ID NO: 2407); CeresClone:560948 (SEQ ID NO: 2408); CeresClone:951040 (SEQ ID NO: 2409); gi|22331645 (SEQ ID NO: 2410); CeresClone:609713 (SEQ ID NO: 2411); CeresClone:4309 (SEQ ID NO: 2413); CeresClone:11843 (SEQ ID NO: 2415); CeresClone:1088130 (SEQ ID NO: 2416); CeresClone:946134 (SEQ ID NO: 2417); CeresClone:1085859 (SEQ ID NO: 2418); gi|47606209 (SEQ ID NO: 2419); gi|30725332 (SEQ ID NO: 2420); CeresClone:709877 (SEQ ID NO: 2421); CeresClone:479137 (SEQ ID NO: 2422); CeresClone:14033 (SEQ ID NO: 2424); gi|50508079 (SEQ ID NO: 2425); CeresClone:28528 (SEQ ID NO: 2427); CeresClone:29009 (SEQ ID NO: 2429); CeresClone:300070 (SEQ ID NO: 2430); CeresClone:32574 (SEQ ID NO: 2432); CeresClone:1012695 (SEQ ID NO: 2433); CeresClone:1573884 (SEQ ID NO: 2434); CeresClone:479101 (SEQ ID NO: 2435); CeresClone:546712 (SEQ ID NO: 2436); CeresClone:32612 (SEQ ID NO: 2438); CeresClone:1068098 (SEQ ID NO: 2439); gi|498705 (SEQ ID NO: 2440); CeresClone:563046 (SEQ ID NO: 2441); CeresClone:737633 (SEQ ID NO: 2442); CeresClone:1607819 (SEQ ID NO: 2443); CeresClone:1608024 (SEQ ID NO: 2444); gi|38347601 (SEQ ID NO: 2445); gi|38347600 (SEQ ID NO: 2446); gi|1173349 (SEQ ID NO: 2447); CeresClone:273675 (SEQ ID NO: 2448); CeresClone:289176 (SEQ ID NO: 2449); CeresClone:984214 (SEQ ID NO: 2450); CeresClone:1444070 (SEQ ID NO: 2451); CeresClone:219485 (SEQ ID NO: 2452); CeresClone:36094 (SEQ ID NO: 2454); CeresClone:14357 (SEQ ID NO: 2455); CeresClone:265075 (SEQ ID NO: 2456); CeresClone:1000303 (SEQ ID NO: 2457); CeresClone:97031 (SEQ ID NO: 2459); CeresClone:115966 (SEQ ID NO: 2461); gi|10998140 (SEQ ID NO: 2462); gi|25405889 (SEQ ID NO: 2463); gi|15220229 (SEQ ID NO: 2464); gi|18413965 (SEQ ID NO: 2465); gi|18413969 (SEQ ID NO: 2466); gi|8953752 (SEQ ID NO: 2467); gi|7267642 (SEQ ID NO: 2468); gi|15220221 (SEQ ID NO: 2469); gi|22325451 (SEQ ID NO: 2470); gi|22325449 (SEQ ID NO: 2471); CeresClone:121021 (SEQ ID NO: 2473); CeresClone:1121512 (SEQ ID NO: 2474); CeresClone:1046846 (SEQ ID NO: 2475); CeresClone:248859 (SEQ ID NO: 2477); CeresClone:1126651 (SEQ ID NO: 2478); CeresClone:591984 (SEQ ID NO: 2479); CeresClone:879739 (SEQ ID NO: 2480); CeresClone:266142 (SEQ ID NO: 2482); CeresClone:1088403 (SEQ ID NO: 2483); CeresClone:30167 (SEQ ID NO: 2484); CeresClone:154257 (SEQ ID NO: 2485); CeresClone:299189 (SEQ ID NO: 2486); CeresClone:1072510 (SEQ ID NO: 2487); CeresClone:870660 (SEQ ID NO: 2488); CeresClone:1053154 (SEQ ID NO: 2489); CeresClone:568747 (SEQ ID NO: 2490); CeresClone:636196 (SEQ ID NO: 2491); CeresClone:609573 (SEQ ID NO: 2493); gi|45271576 (SEQ ID NO: 2494); CeresClone:1361030 (SEQ ID NO: 2495); gi|1935918 (SEQ ID NO: 2496); CeresClone:142380 (SEQ ID NO: 2497); gi|53749401 (SEQ ID NO: 2498); CeresClone:4716 (SEQ ID NO: 2500); CeresClone:23664 (SEQ ID NO: 2502); CeresClone:3968 (SEQ ID NO: 2504); gi|18150168 (SEQ ID NO: 2505); gi|40788039 (SEQ ID NO: 2506); gi|50252842 (SEQ ID NO: 2507); gi|38602797 (SEQ ID NO: 2508); CeresClone:98850 (SEQ ID NO: 2510); CeresClone:92459 (SEQ ID NO: 2511); gi|21617978 (SEQ ID NO: 2512); gi|51968502 (SEQ ID NO: 2513); gi|32402402 (SEQ ID NO: 2514); gi|29165411 (SEQ ID NO: 2515); CeresClone:1065387 (SEQ ID NO: 2516); gi|17933450 (SEQ ID NO: 2517); gi|31580813 (SEQ ID NO: 2518); gi|17933458 (SEQ ID NO: 2519); gi|34591565 (SEQ ID NO: 2520); gi|17933456 (SEQ ID NO: 2521); CeresClone:1091989 (SEQ ID NO: 2522); CeresClone:39347 (SEQ ID NO: 2523).

DETAILED DESCRIPTION OF THE INVENTION 1. Definitions

The following terms are utilized throughout this application:

Chimeric: The term “chimeric” is used to describe genes, as defined supra, or constructs wherein at least two of the elements of the gene or construct, such as the promoter and the coding sequence and/or other regulatory sequences and/or filler sequences and/or complements thereof, are heterologous to each other. Constitutive Promoter: Promoters referred to herein as “constitutive promoters” actively promote transcription under most, but not necessarily all, environmental conditions and states of development or cell differentiation. Examples of constitutive promoters include the cauliflower mosaic virus (CaMV) 35S transcript initiation region and the 1′ or 2′ promoter derived from T-DNA of Agrobacterium tumefaciens, and other transcription initiation regions from various plant genes, such as the maize ubiquitin-1 promoter, known to those of skill. Domain: Domains are fingerprints or signatures that can be used to characterize protein families and/or parts of proteins. Such fingerprints or signatures can comprise conserved (1) primary sequence, (2) secondary structure, and/or (3) three-dimensional conformation. Generally, each domain has been associated with either a family of proteins or motifs. Typically, these families and/or motifs have been correlated with specific in-vitro and/or in-vivo activities. A domain can be any length, including the entirety of the sequence of a protein. Detailed descriptions of the domains, associated families and motifs, and correlated activities of the polypeptides of the instant invention are described below. Usually, the polypeptides with designated domain(s) can exhibit at least one activity that is exhibited by any polypeptide that comprises the same domain(s). Domains also define areas of non-coding sequences such as promoters and miRNAs. Endogenous: The term “endogenous,” within the context of the current invention refers to any polynucleotide, polypeptide or protein sequence which is a natural part of a cell or organisms regenerated from said cell. Exogenous: “Exogenous,” as referred to within, is any polynucleotide, polypeptide or protein sequence, whether chimeric or not, that is initially or subsequently introduced into the genome of an individual host cell or the organism regenerated from said host cell by any means other than by a sexual cross. Examples of means by which this can be accomplished are described below, and include Agrobacterium-mediated transformation (of dicots—e.g. Salomon et al. EMBO J. 3:141 (1984); Herrera-Estrella et al. EMBO J. 2:987 (1983); of monocots, representative papers are those by Escudero et al., Plant J. 10:355 (1996), Ishida et al., Nature Biotechnology 14:745 (1996), May et al., Bio/Technology 13:486 (1995)), biolistic methods (Armaleo et al., Current Genetics 17:97 1990)), electroporation, in planta techniques, and the like. Such a plant containing the exogenous nucleic acid is referred to here as a T₀ for the primary transgenic plant and T₁ for the first generation. The term “exogenous” as used herein is also intended to encompass inserting a naturally found element into a non-naturally found location. Gene: The term “gene,” as used in the context of the current invention, encompasses all regulatory and coding sequence contiguously associated with a single hereditary unit with a genetic function. Genes can include non-coding sequences that modulate the genetic function that include, but are not limited to, those that specify polyadenylation, transcriptional regulation, DNA conformation, chromatin conformation, extent and position of base methylation and binding sites of proteins that control all of these. Genes comprised of “exons” (coding sequences), which may be interrupted by “introns” (non-coding sequences), encode proteins. A gene's genetic function may require only RNA expression or protein production, or may only require binding of proteins and/or nucleic acids without associated expression. In certain cases, genes adjacent to one another may share sequence in such a way that one gene will overlap the other. A gene can be found within the genome of an organism, artificial chromosome, plasmid, vector, etc., or as a separate isolated entity. Heterologous sequences: “Heterologous sequences” are those that are not operatively linked or are not contiguous to each other in nature. For example, a promoter from corn is considered heterologous to an Arabidopsis coding region sequence. Also, a promoter from a gene encoding a growth factor from corn is considered heterologous to a sequence encoding the corn receptor for the growth factor. Regulatory element sequences, such as UTRs or 3′ end termination sequences that do not originate in nature from the same gene as the coding sequence originates from, are considered heterologous to said coding sequence. Elements operatively linked in nature and contiguous to each other are not heterologous to each other. On the other hand, these same elements remain operatively linked but become heterologous if other filler sequence is placed between them. Thus, the promoter and coding sequences of a corn gene expressing an amino acid transporter are not heterologous to each other, but the promoter and coding sequence of a corn gene operatively linked in a novel manner are heterologous. Homologous gene: In the current invention, “homologous gene” refers to a gene that shares sequence similarity with the gene of interest. This similarity may be in only a fragment of the sequence and often represents a functional domain such as, examples including without limitation a DNA binding domain, a domain with tyrosine kinase activity, or the like. The functional activities of homologous genes are not necessarily the same. Misexpression: The term “misexpression” refers to an increase or a decrease in the transcription of a coding region into a complementary RNA sequence as compared to the parental wild-type. This term also encompasses expression of a gene or coding region for a different time period as compared to the wild-type and/or from a non-natural location within the plant genome. Percentage of sequence identity: “Percentage of sequence identity,” as used herein, is determined by comparing two optimally aligned sequences over a comparison window, where the fragment of the polynucleotide or amino acid sequence in the comparison window may comprise additions or deletions (e.g., gaps or overhangs) as compared to the reference sequence (which does not comprise additions or deletions) for optimal alignment of the two sequences. The percentage is calculated by determining the number of positions at which the identical nucleic acid base or amino acid residue occurs in both sequences to yield the number of matched positions, dividing the number of matched positions by the total number of positions in the window of comparison and multiplying the result by 100 to yield the percentage of sequence identity. Optimal alignment of sequences for comparison may be conducted by the local homology algorithm of Smith and Waterman Add. APL. Math. 2:482 (1981), by the homology alignment algorithm of Needleman and Wunsch J. Mol. Biol. 48:443 (1970), by the search for similarity method of Pearson and Lipman Proc. Natl. Acad. Sci. (USA) 85: 2444 (1988), by computerized implementations of these algorithms (GAP, BESTFIT, BLAST, PASTA, and TFASTA in the Wisconsin Genetics Software Package, Genetics Computer Group (GCG), 575 Science Dr., Madison, Wis.), or by inspection. Given that two sequences have been identified for comparison, GAP and BESTFIT are preferably employed to determine their optimal alignment. Typically, the default values of 5.00 for gap weight and 0.30 for gap weight length are used. The term “substantial sequence identity” between polynucleotide or polypeptide sequences refers to polynucleotide or polypeptide comprising a sequence that has at least 80% sequence identity, preferably at least 85%, more preferably at least 90% and most preferably at least 95%, even more preferably, at least 96%, 97%, 98% or 99% sequence identity compared to a reference sequence using the programs. Regulatory Sequence: The term “regulatory sequence,” as used in the current invention, refers to any nucleotide sequence that influences transcription or translation initiation and rate, and stability and/or mobility of the transcript or polypeptide product. Regulatory sequences include, but are not limited to, promoters, promoter control elements, protein binding sequences, 5′ and 3′ UTRs, transcriptional start site, termination sequence, polyadenylation sequence, introns, certain sequences within a coding sequence, etc. Stringency: “Stringency” as used herein is a function of probe length, probe composition (G+C content), and salt concentration, organic solvent concentration, and temperature of hybridization or wash conditions. Stringency is typically compared by the parameter T_(m), which is the temperature at which 50% of the complementary molecules in the hybridization are hybridized, in terms of a temperature differential from T_(m). High stringency conditions are those providing a condition of T_(m)-5° C. to T_(m)-10° C. Medium or moderate stringency conditions are those providing T_(m)-20° C. to T_(m)-29° C. Low stringency conditions are those providing a condition of T_(m)-40° C. to T_(m)-48° C. The relationship of hybridization conditions to T_(m) (in ° C.) is expressed in the mathematical equation

T _(m)=81.5−16.6(log₁₀[Na⁺])+0.41(% G+C)−(600/N)  (1)

where N is the length of the probe. This equation works well for probes 14 to 70 nucleotides in length that are identical to the target sequence. The equation below for T_(m) of DNA-DNA hybrids is useful for probes in the range of 50 to greater than 500 nucleotides, and for conditions that include an organic solvent (formamide).

T _(m)=81.5+16.6 log {[Na⁺]/(1+0.7[Na⁺])}+0.41(%G+C)−500/L0.63(% formamide)  (2)

where L is the length of the probe in the hybrid. (P. Tijessen, “Hybridization with Nucleic Acid Probes” in Laboratory Techniques in Biochemistry and Molecular Biology, P. C. vand der Vliet, ed., c. 1993 by Elsevier, Amsterdam.) The T_(m) of equation (2) is affected by the nature of the hybrid; for DNA-RNA hybrids T_(m) is 10-15° C. higher than calculated, for RNA-RNA hybrids T_(m) is 20-25° C. higher. Because the T_(m) decreases about 1° C. for each 1% decrease in homology when a long probe is used (Bonner et al., J. Mol. Biol. 81:123 (1973)), stringency conditions in polynucleotide hybridization reactions can be adjusted to favor hybridization of polynucleotides from identical genes or related family members.

Equation (2) is derived assuming equilibrium and therefore, hybridizations according to the present invention are most preferably performed under conditions of probe excess and for sufficient time to achieve equilibrium. The time required to reach equilibrium can be shortened by inclusion of a hybridization accelerator such as dextran sulfate or another high volume polymer in the hybridization buffer.

Stringency conditions can be selected during the hybridization reaction or after hybridization has occurred by altering the salt and temperature conditions of the wash solutions used. The formulas shown above are equally valid when used to compute the stringency of a wash solution. Preferred wash solution stringencies lie within the ranges stated above; high stringency is 5-8° C. below T_(m), medium or moderate stringency is 26-29° C. below T_(m) and low stringency is 45-48° C. below T_(m).

Substantially free of: A composition containing A is “substantially free of” B when at least 85% by weight of the total A+B in the composition is A. Preferably, A comprises at least about 90% by weight of the total of A+B in the composition, more preferably at least about 95% or even 99% by weight. For example, a plant gene or DNA sequence can be considered substantially free of other plant genes or DNA sequences. Translational start site: In the context of the current invention, a “translational start site” is usually an ATG in the cDNA transcript, more usually the first ATG. A single cDNA, however, may have multiple translational start sites. Transcription start site: “Transcription start site” is used in the current invention to describe the point at which transcription is initiated. This point is typically located about 25 nucleotides downstream from a TFIID binding site, such as a TATA box. Transcription can initiate at one or more sites within the gene, and a single gene may have multiple transcriptional start sites, some of which may be specific for transcription in a particular cell-type or tissue. Untranslated region (UTR): A “UTR” is any contiguous series of nucleotide bases that is transcribed, but is not translated. These untranslated regions may be associated with particular functions such as increasing mRNA message stability. Examples of UTRs include, but are not limited to polyadenylation signals, terminations sequences, sequences located between the transcriptional start site and the first exon (5′ UTR) and sequences located between the last exon and the end of the mRNA (3′ UTR). Variant: The term “variant” is used herein to denote a polypeptide or protein or polynucleotide molecule that differs from others of its kind in some way. For example, polypeptide and protein variants can consist of changes in amino acid sequence and/or charge and/or post-translational modifications (such as glycosylation, etc).

2. Important Characteristics of the Polynucleotides of the Invention

The genes and polynucleotides of the present invention are of interest because when they are misexpressed (i.e. when expressed at a non-natural location or in an increased amount) they produce plants with important modified characteristics as discussed below. These traits can be used to exploit or maximize plant products or to minimize undesirable characteristics. For example, an increase in plant height is beneficial in species grown or harvested for their main stem or trunk, such as ornamental cut flowers, fiber crops (e.g. flax, kenaf, hesperaloe, hemp) and wood producing trees. Increase in inflorescence thickness is also desirable for some ornamentals, while increases in the number, shape and size of leaves can lead to increased production/harvest from leaf crops such as lettuce, spinach, cabbage and tobacco. Likewise, a decrease in plant height is beneficial in species that are particularly susceptible to lodging or uprooting due to wind stress.

The polynucleotides and polypeptides of the invention were isolated from Arabidopsis thaliana, corn, soybean, wheat, Brassica and others as noted in the Sequence Listing. The polynucleotides and polypeptides are useful to confer on transgenic plants the properties identified for each sequence in the relevant portion (miscellaneous feature section) of the Sequence Listing. The miscellaneous feature section of the sequence listing contains, for each sequence, a description of the domain or other characteristic from which the sequence has the function known in the art for other sequences. Some identified domains are indicated with “PFam Name”, signifying that the pfam name and description can be found in the pfam database on the internet. Other domains are indicated by reference to a “GI Number” from the public sequence database maintained by GenBank under the NCBI, including the non-redundant (NR) database.

The sequences of the invention can be applied to substrates for use in array applications such as, but not limited to, assays of global gene expression, under varying conditions of development, and growth conditions. The arrays are also used in diagnostic or forensic methods

The polynucleotides, or fragments thereof, can also be used as probes and primers. Probe length varies depending on the application. For use as primers, probes are 12-40 nucleotides, preferably 18-30 nucleotides long. For use in mapping, probes are preferably 50 to 500 nucleotides, preferably 100-250 nucleotides long. For Southern hybridizations, probes as long as several kilobases are used.

The probes and/or primers are produced by synthetic procedures such as the triester method of Matteucci et al. J. Am. Chem. Soc. 103:3185 (1981) or according to Urdea et al. Proc. Natl. Acad. 80:7461 (1981) or using commercially available automated oligonucleotide synthesizers.

The polynucleotides of the invention can be utilized in a number of methods known to those skilled in the art as probes and/or primers to isolate and detect polynucleotides including, without limitation: Southerns, Northerns, Branched DNA hybridization assays, polymerase chain reaction microarray assays and variations thereof. Specific methods given by way of examples, and discussed below include:

Hybridization

Methods of Mapping

Southern Blotting

Isolating cDNA from Related Organisms

Isolating and/or Identifying Homologous and Orthologous Genes.

Also, the nucleic acid molecules of the invention can be used in other methods, such as high density oligonucleotide hybridizing assays, described, for example, in U.S. Pat. Nos. 6,004,753 and 5,945,306.

The polynucleotides or fragments thereof of the present invention can be used as probes and/or primers for detection and/or isolation of related polynucleotide sequences through hybridization. Hybridization of one nucleic acid to another constitutes a physical property that defines the polynucleotide of the invention and the identified related sequences. Also, such hybridization imposes structural limitations on the pair. A good general discussion of the factors for determining hybridization conditions is provided by Sambrook et al. (“Molecular Cloning, a Laboratory Manual, 2nd ed., c. 1989 by Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y.; see esp., chapters 11 and 12). Additional considerations and details of the physical chemistry of hybridization are provided by G. H. Keller and M. M. Manak “DNA Probes”, 2^(nd) Ed. pp. 1-25, c. 1993 by Stockton Press, New York, N.Y.

When using the polynucleotides to identify orthologous genes in other species, the practitioner will preferably adjust the amount of target DNA of each species so that, as nearly as is practical, the same number of genome equivalents are present for each species examined. This prevents faint signals from species having large genomes, and thus small numbers of genome equivalents per mass of DNA, from erroneously being interpreted as absence of the corresponding gene in the genome.

The probes and/or primers of the instant invention can also be used to detect or isolate nucleotides that are “identical” to the probes or primers. Two nucleic acid sequences or polypeptides are said to be “identical” if the sequence of nucleotides or amino acid residues, respectively, in the two sequences is the same when aligned for maximum correspondence as described below.

Isolated polynucleotides within the scope of the invention also include allelic variants of the specific sequences presented in the Sequence Listing. The probes and/or primers of the invention are also used to detect and/or isolate polynucleotides exhibiting at least 80% sequence identity with the sequences of the Sequence Listing or fragments thereof. Related polynucleotide sequences can also be identified according to the methods described in U.S. Patent Publication 20040137466A1, dated Jul. 15, 2004 to Jofuku et al.

With respect to nucleotide sequences, degeneracy of the genetic code provides the possibility to substitute at least one nucleotide of the nucleotide sequence of a gene with a different nucleotide without changing the amino acid sequence of the polypeptide. Hence, the DNA of the present invention also has any base sequence that has been changed from a sequence in the Sequence Listing by substitution in accordance with degeneracy of genetic code. References describing codon usage include: Cards et al., J. Mol. Evol. 46: 45 (1998) and Fennoy et al., Nucl. Acids Res. 21(23): 5294 (1993).

The polynucleotides of the invention are also used to create various types of genetic and physical maps of the genome of corn, Arabidopsis, soybean, rice, wheat, or other plants. Some are absolutely associated with particular phenotypic traits, allowing construction of gross genetic maps. Creation of such maps is based on differences or variants, generally referred to as polymorphisms, between different parents used in crosses. Common methods of detecting polymorphisms that can be used are restriction fragment length polymorphisms (RFLPs, single nucleotide polymorphisms (SNPs) or simple sequence repeats (SSRs).

The use of RFLPs and of recombinant inbred lines for such genetic mapping is described for Arabidopsis by Alonso-Blanco et al. (Methods in Molecular Biology, vol. 82, “Arabidopsis Protocols”, pp. 137-146, J. M. Martinez-Zapater and J. Salinas, eds., c. 1998 by Humana Press, Totowa, N.J.) and for corn by Bun (“Mapping Genes with Recombinant Inbreds”, pp. 249-254. In Freeling, M. and V. Walbot (Ed.), The Maize Handbook, c. 1994 by Springer-Verlag New York, Inc.: New York, N.Y., USA; Berlin Germany; Burr et al. Genetics (1998) 118: 519; Gardiner, J. et al., (1993) Genetics 134: 917). This procedure, however, is not limited to plants and is used for other organisms (such as yeast) or for individual cells.

The polynucleotides of the present invention are also used for simple sequence repeat (SSR) mapping. Rice SSR mapping is described by Morgante et al. (The Plant Journal (1993) 3: 165), Panaud et al. (Genome (1995) 38: 1170); Senior et al. (Crop Science (1996) 36: 1676), Taramino et al. (Genome (1996) 39: 277) and Ahn et al. (Molecular and General Genetics (1993) 241: 483-90). SSR mapping is achieved using various methods. In one instance, polymorphisms are identified when sequence specific probes contained within a polynucleotide flanking an SSR are made and used in polymerase chain reaction (PCR) assays with template DNA from two or more individuals of interest. Here, a change in the number of tandem repeats between the SSR-flanking sequences produces differently sized fragments (U.S. Pat. No. 5,766,847). Alternatively, polymorphisms are identified by using the PCR fragment produced from the SSR-flanking sequence specific primer reaction as a probe against Southern blots representing different individuals (U. H. Refseth et al., (1997) Electrophoresis 18: 1519).

The polynucleotides of the invention can further be used to identify certain genes or genetic traits using, for example, known AFLP technologies, such as in EP0534858 and U.S. Pat. No. 5,878,215.

The polynucleotides of the present invention are also used for single nucleotide polymorphism (SNP) mapping.

Genetic and physical maps of crop species have many uses. For example, these maps are used to devise positional cloning strategies for isolating novel genes from the mapped crop species. In addition, because the genomes of closely related species are largely syntenic (i.e. they display the same ordering of genes within the genome), these maps are used to isolate novel alleles from relatives of crop species by positional cloning strategies.

The various types of maps discussed above are used with the polynucleotides of the invention to identify Quantitative Trait Loci (QTLs). Many important crop traits, such as the solids content of tomatoes, are quantitative traits and result from the combined interactions of several genes. These genes reside at different loci in the genome, often times on different chromosomes, and generally exhibit multiple alleles at each locus. The polynucleotides of the invention are used to identify QTLs and isolate specific alleles as described by de Vicente and Tanksley (Genetics 134:585 (1993)). Once a desired allele combination is identified, crop improvement is accomplished either through biotechnological means or by directed conventional breeding programs (for review see Tanksley and McCouch, Science 277:1063 (1997)). In addition to isolating QTL alleles in present crop species, the polynucleotides of the invention are also used to isolate alleles from the corresponding QTL of wild relatives.

In another embodiment, the polynucleotides are used to help create physical maps of the genome of corn, Arabidopsis and related species. Where polynucleotides are ordered on a genetic map, as described above, they are used as probes to discover which clones in large libraries of plant DNA fragments in YACs, BACs, etc. contain the same polynucleotide or similar sequences, thereby facilitating the assignment of the large DNA fragments to chromosomal positions. Subsequently, the large BACs, YACs, etc. are ordered unambiguously by more detailed studies of their sequence composition (e.g. Marra et al. (1997) Genomic Research 7:1072-1084) and by using their end or other sequences to find the identical sequences in other cloned DNA fragments. The overlapping of DNA sequences in this way allows building large contigs of plant sequences to be built that, when sufficiently extended, provide a complete physical map of a chromosome. Sometimes the polynucleotides themselves provide the means of joining cloned sequences into a contig. All scientific and patent publications cited in this paragraph are hereby incorporated by reference. U.S. Pat. Nos. 6,287,778 and 6,500,614, both hereby incorporated by reference, describe scanning multiple alleles of a plurality of loci using hybridization to arrays of oligonucleotides. These techniques are useful for each of the types of mapping discussed above.

Following the procedures described above and using a plurality of the polynucleotides of the present invention, any individual is genotyped. These individual genotypes are used for the identification of particular cultivars, varieties, lines, ecotypes and genetically modified plants or can serve as tools for subsequent genetic studies involving multiple phenotypic traits.

Identification and isolation of orthologous genes from closely related species and alleles within a species is particularly desirable because of their potential for crop improvement. Many important crop traits, result from the combined interactions of the products of several genes residing at different loci in the genome. Generally, alleles at each of these loci make quantitative differences to the trait. Once a more favorable allele combination is identified, crop improvement is accomplished either through biotechnological means or by directed conventional breeding programs (Tanksley et al. Science 277:1063 (1997)).

FIG. 1 provides the results of ortholog analysis according to the invention. This analysis provides a means for identifying one or more sequences that are similar or orthologous or homologous to one or more polynucleotides as noted herein, or one or more target polypeptides encoded by the polynucleotides, or otherwise noted herein and may include linking or associating a given plant phenotype or gene function with a sequence. In the method, a sequence database is provided (locally or across an internet or intranet) and a query is made against the sequence database using the relevant sequences herein and associated plant phenotypes or gene functions.

In particular, the polypeptide sequences of the invention (the “query sequences”) were used to query against the Applicant's own internal database of various plant sequences and against the entire NCBI GenBank database. This search resulted in an alignment for each query sequence with it's identified orthologous sequences, and that group of sequences provided the basis for identifying a respective consensus sequence. FIG. 1 sets forth the various alignments, wherein each query sequence is identified as a “Lead-Ceres Clone” followed by a numerical ID, the orthologs identified from the Applicant's internal database are identified as “Ceres Clone” followed by a numerical ID, and the orthologs identified from GenBank are identified as “gi” followed by a numerical ID. Each ortholog group, consisting of a query sequence (Lead-Ceres Clone), the identified orthologs, and the respective consensus sequence begins with a title that includes an identification of the relevant Lead-Ceres Clone.

The alignments of FIG. 1 also include an identification of the conserved domains or conserved regions, namely those domains or regions that are conserved across the group of orthologous sequences. One skilled in the art will recognize that each of the sequences in a particular ortholog group will be useful for the same purpose(s) as the Lead-Ceres Clone of that group, and that other useful orthologs can be designed or identified by taking into consideration the conserved regions or domains.

To aid in understanding the relationship of the various sequence identifiers used in this application, Table 1 provides a cross-reference for each polynucleotide sequence. In particular, Table 1 matches each polynucleotide sequence in the Sequence Listing (“SEQ ID NO:”) with (1) a number referred to as the “Ceres Clone ID” that is cited in the Sequence Listing as an internal identifier for the Applicant; (2) a similar identifier also utilized in the Sequence Listing and (3) the identifier utilized in the Homolog Table of FIG. 1 that references the sequence as a “Lead-Ceres Clone” and was used as the query sequence for identifying a homologous group of sequences. The SEQ ID NOS. in the Sequence Listing that are not in the Table 1 cross reference represent the polypeptide sequences that are coded by the next prior SEQ ID NO. or are part of the homolog group identified in FIG. 1. For example, SEQ ID NO:1 is a polynucleotide sequence that encodes the polypeptide of SEQ ID NO:2 while SEQ ID NOS: 3-4 are the homologs of SEQ ID NO: 2 as shown in FIG. 1. Similarly, SEQ ID NO:5 is a polynucleotide sequence that encodes the polypeptide of SEQ ID NO:6 while SEQ ID NOS: 7-21 are the homologs of SEQ ID NO: 6 as shown in FIG. 1.

4. Use of the Genes to Make Transgenic Plants

To use the sequences of the present invention or a combination of them or parts and/or mutants and/or fusions and/or variants of them, recombinant DNA constructs are prepared which comprise the polynucleotide sequences of the invention inserted into a vector, and which are suitable for transformation of plant cells. The construct is made using standard recombinant DNA techniques (Sambrook et al. 1989) and is introduced to the species of interest by Agrobacterium-mediated transformation or by other means of transformation as referenced below.

The vector backbone is any of those typical in the art such as plasmids (such as Ti plasmids), viruses, artificial chromosomes, BACs, YACs and PACs and vectors of the sort described by

-   (a) BAC: Shizuya et al., Proc. Natl. Acad. Sci. USA 89: 8794-8797     (1992); Hamilton et al., Proc. Natl. Acad. Sci. USA 93: 9975-9979     (1996); -   (b) YAC: Burke et al., Science 236:806-812 (1987); -   (c) PAC: Sternberg N. et al., Proc Natl Acad Sci USA. January;     87(1):103-7 (1990); -   (d) Bacteria-Yeast Shuttle Vectors: Bradshaw et al., Nucl Acids Res     23: 4850-4856 (1995); -   (e) Lambda Phage Vectors: Replacement Vector, e.g., Frischauf et     al., J. Mol. Biol 170: 827-842 (1983); or Insertion vector, e.g.,     Huynh et al., In: Glover N M (ed) DNA Cloning: A practical Approach,     Vol. 1 Oxford: IRL Press (1985); T-DNA gene fusion vectors: Walden     et al., Mol Cell Biol 1: 175-194 (1990); and -   (g) Plasmid vectors: Sambrook et al., infra.

Typically, the construct comprises a vector containing a sequence of the present invention with any desired transcriptional and/or translational regulatory sequences, such as promoters, UTRs, and 3′ end termination sequences. Vectors can also include origins of replication, scaffold attachment regions (SARs), markers, homologous sequences, introns, etc. The vector may also comprise a marker gene that confers a selectable phenotype on plant cells. The marker may encode biocide resistance, particularly antibiotic resistance, such as resistance to kanamycin, G418, bleomycin, hygromycin, or herbicide resistance, such as resistance to chlorosulfuron, glyphosate or phosphinotricin.

A plant promoter fragment is used that directs transcription of the gene in all tissues of a regenerated plant and/or is a constitutive promoter. Alternatively, the plant promoter directs transcription of a sequence of the invention in a specific tissue (tissue-specific promoter) or is otherwise under more precise environmental control (inducible promoter).

If proper polypeptide production is desired, a polyadenylation region at the 3′-end of the coding region is typically included. The polyadenylation region is derived from the natural gene, from a variety of other plant genes, or from T-DNA, synthesized in the laboratory.

Transformation

Techniques for transforming a wide variety of higher plant species are well known and described in the technical and scientific literature. See, e.g. Weising et al., Ann. Rev. Genet. 22:421 (1988); and Christou, Euphytica, v. 85, n.1-3:13-27, (1995).

The person skilled in the art knows processes for the transformation of monocotyledonous and dicotyledonous plants. A variety of techniques are available for introducing DNA into a plant host cell. These techniques comprise transformation of plant cells by DNA injection, DNA electroporation, use of bolistics methods, protoplast fusion and via T-DNA using Agrobacterium tumefaciens or Agrobacterium rhizogenes, as well as further possibilities, or other bacterial hosts for Ti plasmid vectors. See for example, Broothaerts et al., Gene Transfer to Plants by Diverse Species of Bacteria, Nature, Vol. 433, pp. 629-633, 10 Feb. 2005.

DNA constructs of the invention are introduced into the cell or the genome of the desired plant host by a variety of conventional techniques. For example, the DNA construct is introduced using techniques such as electroporation, microinjection and polyethylene glycol precipitation of plant cell protoplasts or protoplast fusion. Electroporation techniques are described in Fromm et al. Proc. Natl. Acad. Sci. USA 82:5824 (1985). Microinjection techniques are known in the art and well described in the scientific and patent literature. The plasmids do not have to fulfill specific requirements for use in DNA electroporation or DNA injection into plant cells. Simple plasmids such as pUC derivatives can be used.

The introduction of DNA constructs using polyethylene glycol precipitation is described in Paszkowski et al. EMBO J. 3:2717 (1984). Introduction of foreign DNA using protoplast fusion is described by Willmitzer (Willmitzer, L., 1993 Transgenic plants. In: Biotechnology, A Multi-Volume Comprehensive Treatise (H. J. Rehm, G. Reed, A. Pühler, P. Stadler, eds.), Vol. 2, 627-659, VCH Weinheim-New York-Basel-Cambridge).

Alternatively, the DNA constructs of the invention are introduced directly into plant tissue using ballistic methods, such as DNA particle bombardment. Ballistic transformation techniques are described in Klein et al. Nature 327:773 (1987). Introduction of foreign DNA using ballistics is described by Willmitzer (Willmitzer, L., 1993 Transgenic plants. In: Biotechnology, A Multi-Volume Comprehensive Treatise (H. J. Rehm, G. Reed, A. Pühler, P. Stadler, eds.), Vol. 2, 627-659, VCH Weinheim-New York-Basel-Cambridge).

DNA constructs are also introduced with the help of Agrobacteria. The use of Agrobacteria for plant cell transformation is extensively examined and sufficiently disclosed in the specification of EP-A 120 516, and in Hoekema (In: The Binary Plant Vector System Offsetdrukkerij Kanters B. V., Alblasserdam (1985), Chapter V), Fraley et al. (Crit. Rev. Plant. Sci. 4, 1-46) and DePicker et al. (EMBO J. 4 (1985), 277-287). Using this technique, the DNA constructs of the invention are combined with suitable T-DNA flanking regions and introduced into a conventional Agrobacterium tumefaciens host vector. The virulence functions of the Agrobacterium tumefaciens host direct the insertion of the construct and adjacent marker(s) into the plant cell DNA when the cell is infected by the bacteria (McCormac et al., 1997, Mol. Biotechnol. 8:199; Hamilton, 1997, Gene 200:107; Salomon et al., 1984 EMBO J. 3:141; Herrera-Estrella et al., 1983 EMBO J. 2:987). Agrobacterium tumefaciens-mediated transformation techniques, including disarming and use of binary or co-integrate vectors, are well described in the scientific literature. See, for example Hamilton, C M., Gene 200:107 (1997); Müller et al. Mol. Gen. Genet. 207:171 (1987); Komari et al. Plant J. 10:165 (1996); Venkateswarlu et al. Biotechnology 9:1103 (1991) and Gleave, A P., Plant Mol. Biol. 20:1203 (1992); Graves and Goldman, Plant Mol. Biol. 7:34 (1986) and Gould et al., Plant Physiology 95:426 (1991).

For plant cell T-DNA transfer of DNA, plant organs, e.g. infloresences, plant explants, plant cells that have been cultured in suspension or protoplasts are co-cultivated with Agrobacterium tumefaciens or Agrobacterium rhizogenes or other suitable T-DNA hosts. Whole plants are regenerated from the infected plant material or seeds generated from infected plant material using a suitable medium that contains antibiotics or biocides for the selection of transformed cells or by spraying the biocide on plants to select the transformed plants. Plants obtained in this way are then examined for the presence of the DNA introduced. The transformation of dicotyledonous plants via Ti-plasmid-vector systems and Agrobacterium tumefaciens is well established.

Monocotyledonous plants are also transformed by means of Agrobacterium based vectors (See Chan et al., Plant Mol. Biol. 22 (1993), 491-506; Hiei et al., Plant J. 6 (1994), 271-282; Deng et al., Science in China 33 (1990), 28-34; Wilmink et al., Plant Cell Reports 11 (1992), 76-80; May et al., Bio/Technology 13 (1995), 486-492; Conner and Domisse; Int. J. Plant Sci. 153 (1992), 550-555; Ritchie et al., Transgenic Res. 2 (1993), 252-265). Maize transformation in particular is described in the literature (see, for example, WO95/06128, EP 0 513 849; EP 0 465 875; Fromm et al., Biotechnology 8 (1990), 833-844; Gordon-Kamm et al., Plant Cell 2 (1990), 603-618; Koziel et al., Biotechnology 11 (1993), 194-200). In EP 292 435 and in Shillito et al. (1989, Bio/Technology 7, 581) fertile plants are obtained from a mucus-free, soft (friable) maize callus. Prioli and Söndahl (1989, Bio/Technology 7, 589) also report regenerating fertile plants from maize protoplasts of the maize Cateto inbred line, Cat 100-1.

Other cereal species have also been successfully transformed, such as barley (Wan and Lemaux, see above; Ritala et al., see above) and wheat (Nehra et al., 1994, Plant J. 5, 285-297).

Alternatives to Agrobacterium transformation for plants are ballistics, protoplast fusion, electroporation of partially permeabilized cells and use of glass fibers (See Wan and Lemaux, Plant Physiol. 104 (1994), 37-48; Vasil et al., Bio/Technology 11 (1993), 1553-1558; Ritala et al., Plant Mol. Biol. 24 (1994), 317-325; Spencer et al., Theor. Appl. Genet. 79 (1990), 625-631)).

Introduced DNA is usually stable after integration into the plant genome and is transmitted to the progeny of the transformed cell or plant. Generally the transformed plant cell contains a selectable marker that makes the transformed cells resistant to a biocide or an antibiotic such as kanamycin, G 418, bleomycin, hygromycin, phosphinotricin or others. Therefore, the individually chosen marker should allow the selection of transformed cells from cells lacking the introduced DNA.

The transformed cells grow within the plant in the usual way (McCormick et al., 1986, Plant Cell Reports 5, 81-84) and the resulting plants are cultured normally. Transformed plant cells obtained by any of the above transformation techniques are cultured to regenerate a whole plant that possesses the transformed genotype and thus the desired phenotype. Such regeneration techniques rely on manipulation of certain phytohormones in a tissue culture growth medium, typically relying on a biocide and/or herbicide marker that has been introduced together with the desired nucleotide sequences.

Plant regeneration from cultured protoplasts is described in Evans et al., Protoplasts Isolation and Culture in “Handbook of Plant Cell Culture,” pp. 124-176, MacMillan Publishing Company, New York, 1983; and Binding, Regeneration of Plants, Plant Protoplasts, pp. 21-73, CRC Press, Boca Raton, 1988. Regeneration also occurs from plant callus, explants, organs, or parts thereof. Such regeneration techniques are described generally in Klee et al. Ann. Rev. of Plant Phys. 38:467 (1987). Regeneration of monocots (rice) is described by Hosoyama et al. (Biosci. Biotechnol. Biochem. 58:1500 (1994)) and by Ghosh et al. (J. Biotechnol. 32:1 (1994)). Useful and relevant procedures for transient expression are also described in U.S. Application No. 60/537,070 filed on Jan. 16, 2004 and PCT Application No. PCT/US2005/001153 filed on Jan. 14, 2005.

After transformation, seeds are obtained from the plants and used for testing stability and inheritance. Generally, two or more generations are cultivated to ensure that the phenotypic feature is stably maintained and transmitted.

One of skill will recognize that after the expression cassette is stably incorporated in transgenic plants and confirmed to be operable, it can be introduced into other plants by sexual crossing. Any of a number of standard breeding techniques can be used, depending upon the species to be crossed.

The nucleotide sequences according to the invention generally encode an appropriate protein from any organism, in particular from plants, fungi, bacteria or animals. The sequences preferably encode proteins from plants or fungi. Preferably, the plants are higher plants, in particular starch or oil storing useful plants, such as potato or cereals such as rice, maize, wheat, barley, rye, triticale, oat, millet, etc., as well as spinach, tobacco, sugar beet, soya, cotton etc.

In principle, the process according to the invention can be applied to any plant. Therefore, monocotyledonous as well as dicotyledonous plant species are particularly suitable. The process is preferably used with plants that are interesting for agriculture, horticulture and/or forestry. Examples are vegetable plants such as cucumber, melon, pumpkin, eggplant, zucchini, tomato, spinach, cabbage species, peas, beans, etc., as well as fruits such as pears, apples, etc.

Thus, the invention has use over a broad range of plants, preferably higher plants, pertaining to the classes of Angiospermae and Gymnospermae. Plants of the subclasses of the Dicotylodenae and the Monocotyledonae are particularly suitable. Dicotyledonous plants belong to the orders of the Magniolales, Illiciales, Laurales, Piperales Aristochiales, Nymphaeales, Ranunculales, Papeverales, Sarraceniaceae, Trochodendrales, Hamamelidales, Eucomiales, Leitneriales, Myricales, Fagales, Casuarinales, Caryophyllales, Batales, Polygonales, Plumbaginales, Dilleniales, Theales, Malvales, Urticales, Lecythidales, Violales, Salicales, Capparales, Ericales, Diapensales, Ebenales, Primulales, Rosales, Fabales, Podostemales, Haloragales, Myrtales, Cornales, Proteales, Santales, Rafflesiales, Celastrales, Euphorbiales, Rhamnales, Sapindales, Juglandales, Geraniales, Polygalales, Umbellales, Gentianales, Polemoniales, Lamiales, Plantaginales, Scrophulariales, Campanulales, Rubiales, Dipsacales, and Asterales. Monocotyledonous plants belong to the orders of the Alismatales, Hydrocharitales, Najadales, Triuridales, Commelinales, Eriocaulales, Restionales, Poales, Juncales, Cyperales, Typhales, Bromeliales, Zingiberales, Arecales, Cyclanthales, Pandanales, Arales, Lilliales, and Orchidales. Plants belonging to the class of the Gymnospermae are Pinales, Ginkgoales, Cycadales and Gnetales.

The method of the invention is preferably used with plants that are interesting for agriculture, horticulture, biomass for bioconversion and/or forestry. Examples are tobacco, oilseed rape, sugar beet, potato, tomato, cucumber, pepper, bean, pea, citrus fruit, apple, pear, berries, plum, melon, eggplant, cotton, soybean, sunflower, rose, poinsettia, petunia, guayule, cabbage, spinach, alfalfa, artichoke, corn, wheat, rye, barley, grasses such as switch grass or turf grass, millet, hemp, banana, poplar, eucalyptus trees, conifers.

5. Phenotype Screens and Results

5.1 Triparental Mating and Vacuum Infiltration Transformation of Plants

The function/phenotype characteristics of the sequences of the invention were determined by means of screens with transgenic plants. Standard laboratory techniques are as described in Sambrook et al. (1989) unless otherwise stated. Single colonies of Agrobacterium C58C1Rif, E. coli helper strain HB101 and the E. coli strain containing the transformation construct to be mobilized into Agrobacterium are separately inoculated into appropriate growth media and stationary cultures produced. Cultures are mixed gently, plated on YEB (5 g Gibco beef extract, 1 g Bacto yeast extract, 1 g Bacto peptone, 5 g sucrose, pH 7.4) solid growth media and incubated overnight at 28° C. The bacteria from the triparental mating are collected in and serial dilutions made. An aliquot of the each dilution is then plated and incubated for 2 days at 28° C. on YEB plates supplemented with 100 μg/ml rifampicin and 100 μg/ml carbenicillin for calculation of the number of acceptor cells and on YEB plates supplemented with 100 μg/ml rifampicin, 100 μg/ml carbenicillin and 100 μg/ml spectinomycin for selection of transconjugant cells. The cointegrate structure of purified transconjugants is verified via Southern blot hybridization.

A transconjugant culture is prepared for vacuum infiltration by inoculating 1 ml of a stationary culture arising from a single colony into liquid YEB media and incubating at 28° C. for approximately 20 hours with shaking until the OD taken at 600 nm was 0.8-1.0. The culture is then pelleted and the bacteria resuspended in infiltration medium (0.5×MS salts, 5% w/v sucrose, 10 μg/l BAP, 200 μl/l Silwet L-77, pH 5.8) to a final OD₆₀₀ of 1.0. This prepared transconjugant culture is used within 20 minutes of preparation.

Wild-type plants for vacuum infiltration are grown in pots. Briefly, seeds of Arabidopsis thaliana (ecotype Wassilewskija) are sown in pots and left at 4° C. for two to four days to vernalize. They are then transferred to 22-25° C. and grown under long-day (16 hr light: 8 hr dark) conditions, sub-irrigated with water. After bolting, the primary inflorescence is removed and, after four to eight days, the pots containing the plants are inverted in the vacuum chamber to submerge all of the plants in the prepared transconjugant culture. Vacuum is drawn for two minutes before pots are removed, covered with plastic wrap and incubated in a cool room under darkness or very low light for one to two days. The plastic wrap is then removed; the plants returned to their previous growing conditions and subsequently produced (T1) seed collected.

5.2 Selection of T-DNA Insertion Lines Seeds from the initial vacuum infiltrated plants are sown on flats of Metromix 350 soil. Flats are vernalized for four to five days at 4° C. before being transferred to 22-25° C. and grown under long-day (16 hr light: 8 hr dark) conditions, sub-irrigated with water. Approximately seven to ten days after germination, the (T1) seedlings are sprayed with 0.02% Finale herbicide (AgrEvo). After another five to seven days, herbicide treatment is repeated. Herbicide resistant T1 plants are allowed to self-pollinate and T2 seed are collected from each individual. In the few cases where the T1 plant produced few seed, the T2 seed is planted in bulk, the T2 plants allowed to self-pollinate and T3 seed collected.

5.3 Phenotype Screening

Seeds from each T2 (or T3) line are planted in a 4-inch pot containing either Sunshine mix or Metromix 350 soil. Pots are vernalized for four to five days at 4° C. before being transferred to 22-25° C. and grown under long-day (16 hr light: 8 hr dark) conditions, sub-irrigated with water. A first phenotype screen is conducted by visually inspecting the seedlings five to seven days after germination and aberrant phenotypes noted. Plants are then sprayed with Finale herbicide within four days (i.e. about seven to nine days after germination). The second visual screen is conducted on surviving T2 (or T3) plants about sixteen to seventeen days after germination and the final screen was conducted after the plants have bolted and formed siliques. Here, the third and fourth green siliques are collected and aberrant phenotypes noted.

Alternatively, seed are surface sterilized and transferred to agar solidified medium containing Murashige and Skoog salts (1×), 1% sucrose (wt/v) pH 5.7 before autoclaving. Seed re cold treated for 48 hours and transferred to long days [16 hours light and 8 hours dark], 25° C. Plants are screened at 5 and 10 days.

The invention being thus described, it will be apparent to one of ordinary skill in the art that various modifications of the materials and methods for practicing the invention can be made. Such modifications are to be considered within the scope of the invention as defined by the following claims.

Each of the references from the patent and periodical literature cited herein is hereby expressly incorporated in its entirety by such citation.

One means of determining the phenotypic effect of a gene is either to insert extra active copies of the gene or coding sequence, or to disrupt an existing copy of the gene in a cell or organism and measure the effects of the genetic change on one or more phenotypic characters or traits. “Knock-in” is used herein to refer to insertion of additional active copies of a gene or coding sequence. “Knock-out” refers to a plant where an endogenous gene(s) is disrupted. Applicants have used both methods of addition or disruption to determine the phenotypic effects of gene or gene components or products, and have thereby discovered the function of the genes and their utilities.

1. Knock-In Results

The coding sequence of a desired protein can be functionally linked to a heterologous promoter to facilitate expression. Here, Applicants have operably linked a number of coding sequences to either one of the promoters listed below:

Specific Promoter Plant Line GFP Pattern activity Descriptor Root epidermis/mostly toward the lower Specific to the root basal Root basal region of root (more intense than CS9094) region. Root-endodermis/cortex (initials sharp); Specific to the root Root/Petiole/Flowers shoot-mesophyll of one leaf, sharp guard cell endodermis-cortex marking. New leaf petioles near tip of region, leaf petiole, and primary inflorescence; floral stems; in flowers. flowers at base of sepal, anther stems, and pistil Broad root exp. (some dermal, some cortical, Specific to root and stem. Root/Stem1 some vascular); shoot apex. Faintly in petiole; stem High expression in stem, excluded from 1st Specific to stem and root. Root/Stem2 true leaves/High in root. Faint expression in stem Shoot meristem/whole root region; little bit Specific to roots, shoot Root/Stem/Leaves/Flowers on cotyledons. Base of leaves(axillary meristem, base of leaves meristem?); base of sepals; inflorescence and flowers. meristem; small amount in unfertilized pistil. root tip vascular initials; vascular system Specific to vascular Vascular/Ovule/Young throughout plant; Bud petal vasculature and systems. Seed/Embryo pistil septum; Flower petal vascualture; Flower pistil septum; Pre fertilization ovules; Post fertilization ovule at chalazal end; Developing seed (young, maturing siliques); Seed coat and young embryos. GFP not observed in mature embryos. Flower, sepal/vascular tissue of root, stem, Specific to flowers, seed Flowers/Seed/Vasculature/ and cotyledons. Stems of new flowers; and vasculature. Embryo vasculature or petals, anthers, sepals, and pistil/silique; Vasculature throughtout seedling: root, hypocotyl, petioles, stem, cotyledons, first true leaves; Rosette vasculature; Cauline leaf vasculature; Bud pedicel vasculature; Flower vasculature: (sepals, petals, filaments, pistil); Bud vasculature (sepal, petal, filament, pistil); Funiculus in both flower and bud; Some possible seed coat expression; Silique funiculus; Very faint fluorescence in mature embryo (auto fluorescence perhaps); Root expression - primarily in cortex (upper Specific to root. Roots2 refion of the root). No shoot expression Root expression - less intense in whole root Specific to root and shoot Root/SAM of young seedling. Shoot apical meristem; apical meristem. organ primordia in SAM region. Root epidermis/tip; shoot epidermis/vascular; Specific to seed and to Seed/Epidermis/Ovary/Fruit leaf epidermis; expression in developing epidermal layers of roots, seed/ovule - mature embryo; Primary and shoots and leaves. lateral root cortex; Very strong in root cap; Base of flower bud and epidermis of carpels; Base of flower, epidermis of filaments, epidermis of carpels; Trichomes; Weak (hardly detectable) gfp expression in vasculature throughout seedling; Strong expression in trichomes; POST-fertilization SEED only; GFP strength increases as silique matures; Weak at suspensor end of the embryo; GFP observed in seed coat; Root and post fertilization seed specific gfp expression; Expression in seed coat. Young root dermis; dermal/cortical?/vascular Specific to roots, shoots, Roots/Shoots/Ovule in older root; general (epidermal?) shoot and ovules. expression; ovules. some in sepals; vasculature of stem Vascular tissue of root; Meristem tissues: Specific to root structural Vasculature/Meristem axillary meristems, floral meristems, base of leaf vascular region and flowers/sepals; Weak expression in to floral buds and axillary hypocotyl, petiole and cotyledon meristem vasculature.

The chimeric constructs were transformed into Arabidopsis thaliana. The resulting transformed lines were screened to determine what phenotypes were changed due to introduced transgene. The phenotype changes, relative to the control, are reported in the Knock-in tables.

TABLE 1 SEQUECE IDENTIFIER CROSS-REFERENCE CERES CLONE SEQ ID NO ID CERES ID IN SEQUENCE LISTING HOMOLOG_TABLE_ID SEQ ID NO: 1 40252 Identifier: Ceres CLONE ID no. 40252 Lead_CeresClone40252 SEQ ID NO: 5 32791 Identifier: Ceres CLONE ID no. 32791 Lead_CeresClone32791 SEQ ID NO: 22 39319 Identifier: Ceres CLONE ID no. 39319 Lead_CeresClone39319 SEQ ID NO: 37 41337 Identifier: Ceres CLONE ID no. 41337 Lead_CeresClone41337 SEQ ID NO: 46 314 Identifier: Ceres CLONE ID no. 314 Lead_CeresClone314 SEQ ID NO: 54 332 Identifier: Ceres CLONE ID no. 332 Lead_CeresClone332 SEQ ID NO: 66 907 Identifier: Ceres CLONE ID no. 907 Lead_CeresClone907 SEQ ID NO: 71 1241 Identifier: Ceres CLONE ID no. 1241 Lead_CeresClone1241 SEQ ID NO: 79 1610 Identifier: Ceres CLONE ID no. 1610 Lead_CeresClone1610 SEQ ID NO: 95 2403 Identifier: Ceres CLONE ID no. 2403 Lead_CeresClone2403 SEQ ID NO: 107 2835 Identifier: Ceres CLONE ID no. 2835 Lead_CeresClone2835 SEQ ID NO: 114 3000 Identifier: Ceres CLONE ID no. 3000 Lead_CeresClone3000 SEQ ID NO: 123 3036 Identifier: Ceres CLONE ID no. 3036 Lead_CeresClone3036 SEQ ID NO: 128 3363 Identifier: Ceres CLONE ID no. 3363 Lead_CeresClone3363 SEQ ID NO: 147 3510 Identifier: Ceres CLONE ID no. 3510 Lead_CeresClone3510 SEQ ID NO: 161 3699 Identifier: Ceres CLONE ID no. 3699 Lead_CeresClone3699 SEQ ID NO: 176 3858 Identifier: Ceres CLONE ID no. 3858 Lead_CeresClone3858 SEQ ID NO: 191 5597 Identifier: Ceres CLONE ID no. 5597 Lead_CeresClone5597 SEQ ID NO: 199 5605 Identifier: Ceres CLONE ID no. 5605 Lead_CeresClone5605 SEQ ID NO: 210 6685 Identifier: Ceres CLONE ID no. 6685 Lead_CeresClone6685 SEQ ID NO: 215 8265 Identifier: Ceres CLONE ID no. 8265 Lead_CeresClone8265 SEQ ID NO: 221 8490 Identifier: Ceres CLONE ID no. 8490 Lead_CeresClone8490 SEQ ID NO: 230 9683 Identifier: Ceres CLONE ID no. 9683 Lead_CeresClone9683 SEQ ID NO: 234 9897 Identifier: Ceres CLONE ID no. 9897 Lead_CeresClone9897 SEQ ID NO: 242 12272 Identifier: Ceres CLONE ID no. 12272 Lead_CeresClone12272 SEQ ID NO: 251 12935 Identifier: Ceres CLONE ID no. 12935 Lead_CeresClone12935 SEQ ID NO: 262 13092 Identifier: Ceres CLONE ID no. 13092 Lead_CeresClone13092 SEQ ID NO: 270 13263 Identifier: Ceres CLONE ID no. 13263 Lead_CeresClone13263 SEQ ID NO: 276 14583 Identifier: Ceres CLONE ID no. 14583 Lead_CeresClone14583 SEQ ID NO: 283 14909 Identifier: Ceres CLONE ID no. 14909 Lead_CeresClone14909 SEQ ID NO: 295 16412 Identifier: Ceres CLONE ID no. 16412 Lead_CeresClone16412 SEQ ID NO: 304 16461 Identifier: Ceres CLONE ID no. 16461 Lead_CeresClone16461 SEQ ID NO: 309 17409 Identifier: Ceres CLONE ID no. 17409 Lead_CeresClone17409 SEQ ID NO: 316 17482 Identifier: Ceres CLONE ID no. 17482 Lead_CeresClone17482 SEQ ID NO: 321 17632 Identifier: Ceres CLONE ID no. 17632 Lead_CeresClone17632 SEQ ID NO: 328 18612 Identifier: Ceres CLONE ID no. 18612 Lead_CeresClone18612 SEQ ID NO: 335 18820 Identifier: Ceres CLONE ID no. 18820 Lead_CeresClone18820 SEQ ID NO: 341 19188 Identifier: Ceres CLONE ID no. 19188 Lead_CeresClone19188 SEQ ID NO: 351 20257 Identifier: Ceres CLONE ID no. 20257 Lead_CeresClone20257 SEQ ID NO: 362 21068 Identifier: Ceres CLONE ID no. 21068 Lead_CeresClone21068 SEQ ID NO: 367 22461 Identifier: Ceres CLONE ID no. 22461 Lead_CeresClone22461 SEQ ID NO: 372 23203 Identifier: Ceres CLONE ID no. 23203 Lead_CeresClone23203 SEQ ID NO: 382 26907 Identifier: Ceres CLONE ID no. 26907 Lead_CeresClone26907 SEQ ID NO: 393 27460 Identifier: Ceres CLONE ID no. 27460 Lead_CeresClone27460 SEQ ID NO: 396 32348 Identifier: Ceres CLONE ID no. 32348 Lead_CeresClone32348 SEQ ID NO: 407 32548 Identifier: Ceres CLONE ID no. 32548 Lead_CeresClone32548 SEQ ID NO: 417 32753 Identifier: Ceres CLONE ID no. 32753 Lead_CeresClone32753 SEQ ID NO: 422 34167 Identifier: Ceres CLONE ID no. 34167 Lead_CeresClone34167 SEQ ID NO: 430 34385 Identifier: Ceres CLONE ID no. 34385 Lead_CeresClone34385 SEQ ID NO: 449 36518 Identifier: Ceres CLONE ID no. 36518 Lead_CeresClone36518 SEQ ID NO: 456 36891 Identifier: Ceres CLONE ID no. 36891 Lead_CeresClone36891 SEQ ID NO: 471 36904 Identifier: Ceres CLONE ID no. 36904 Lead_CeresClone36904 SEQ ID NO: 478 37288 Identifier: Ceres CLONE ID no. 37288 Lead_CeresClone37288 SEQ ID NO: 484 37298 Identifier: Ceres CLONE ID no. 37298 Lead_CeresClone37298 SEQ ID NO: 495 37663 Identifier: Ceres CLONE ID no. 37663 Lead_CeresClone37663 SEQ ID NO: 498 38101 Identifier: Ceres CLONE ID no. 38101 Lead_CeresClone38101 SEQ ID NO: 511 38419 Identifier: Ceres CLONE ID no. 38419 Lead_CeresClone38419 SEQ ID NO: 518 38470 Identifier: Ceres CLONE ID no. 38470 Lead_CeresClone38470 SEQ ID NO: 526 38690 Identifier: Ceres CLONE ID no. 38690 Lead_CeresClone38690 SEQ ID NO: 530 39286 Identifier: Ceres CLONE ID no. 39286 Lead_CeresClone39286 SEQ ID NO: 536 40508 Identifier: Ceres CLONE ID no. 40508 Lead_CeresClone40508 SEQ ID NO: 543 40729 Identifier: Ceres CLONE ID no. 40729 Lead_CeresClone40729 SEQ ID NO: 551 41306 Identifier: Ceres CLONE ID no. 41306 Lead_CeresClone41306 SEQ ID NO: 554 41439 Identifier: Ceres CLONE ID no. 41439 Lead_CeresClone41439 SEQ ID NO: 569 42141 Identifier: Ceres CLONE ID no. 42141 Lead_CeresClone42141 SEQ ID NO: 578 92459 Identifier: Ceres CLONE ID no. 92459 Lead_CeresClone92459 SEQ ID NO: 585 92670 Identifier: Ceres CLONE ID no. 92670 Lead_CeresClone92670 SEQ ID NO: 598 94231 Identifier: Ceres CLONE ID no. 94231 Lead_CeresClone94231 SEQ ID NO: 611 95135 Identifier: Ceres CLONE ID no. 95135 Lead_CeresClone95135 SEQ ID NO: 623 97434 Identifier: Ceres CLONE ID no. 97434 Lead_CeresClone97434 SEQ ID NO: 640 97480 Identifier: Ceres CLONE ID no. 97480 Lead_CeresClone97480 SEQ ID NO: 654 97958 Identifier: Ceres CLONE ID no. 97958 Lead_CeresClone97958 SEQ ID NO: 672 98855 Identifier: Ceres CLONE ID no. 98855 Lead_CeresClone98855 SEQ ID NO: 681 99657 Identifier: Ceres CLONE ID no. 99657 Lead_CeresClone99657 SEQ ID NO: 699 100465 Identifier: Ceres CLONE ID no. 100465 Lead_CeresClone100465 SEQ ID NO: 703 107731 Identifier: Ceres CLONE ID no. 107731 Lead_CeresClone107731 SEQ ID NO: 717 110454 Identifier: Ceres CLONE ID no. 110454 Lead_CeresClone110454 SEQ ID NO: 733 116843 Identifier: Ceres CLONE ID no. 116843 Lead_CeresClone116843 SEQ ID NO: 738 119256 Identifier: Ceres CLONE ID no. 119256 Lead_CeresClone119256 SEQ ID NO: 746 123905 Identifier: Ceres CLONE ID no. 123905 Lead_CeresClone123905 SEQ ID NO: 753 141805 Identifier: Ceres CLONE ID no. 141805 Lead_CeresClone141805 SEQ ID NO: 759 141890 Identifier: Ceres CLONE ID no. 141890 Lead_CeresClone141890 SEQ ID NO: 762 147358 Identifier: Ceres CLONE ID no. 147358 Lead_CeresClone147358 SEQ ID NO: 775 148943 Identifier: Ceres CLONE ID no. 148943 Lead_CeresClone148943 SEQ ID NO: 785 157547 Identifier: Ceres CLONE ID no. 157547 Lead_CeresClone157547 SEQ ID NO: 791 158333 Identifier: Ceres CLONE ID no. 158333 Lead_CeresClone158333 SEQ ID NO: 797 227651 Identifier: Ceres CLONE ID no. 227651 Lead_CeresClone227651 SEQ ID NO: 815 235672 Identifier: Ceres CLONE ID no. 235672 Lead_CeresClone235672 SEQ ID NO: 819 241131 Identifier: Ceres CLONE ID no. 241131 Lead_CeresClone241131 SEQ ID NO: 825 262460 Identifier: Ceres CLONE ID no. 262460 Lead_CeresClone262460 SEQ ID NO: 832 270555 Identifier: Ceres CLONE ID no. 270555 Lead_CeresClone270555 SEQ ID NO: 835 481710 Identifier: Ceres CLONE ID no. 481710 Lead_CeresClone481710 SEQ ID NO: 846 482122 Identifier: Ceres CLONE ID no. 482122 Lead_CeresClone482122 SEQ ID NO: 860 536457 Identifier: Ceres CLONE ID no. 536457 Lead_CeresClone536457 SEQ ID NO: 871 536796 Identifier: Ceres CLONE ID no. 536796 Lead_CeresClone536796 SEQ ID NO: 877 572121 Identifier: Ceres CLONE ID no. 572121 Lead_CeresClone572121 SEQ ID NO: 880 641355 Identifier: Ceres CLONE ID no. 641355 Lead_CeresClone641355 SEQ ID NO: 894 660003 Identifier: Ceres CLONE ID no. 660003 Lead_CeresClone660003 SEQ ID NO: 898 664365 Identifier: Ceres CLONE ID no. 664365 Lead_CeresClone664365 SEQ ID NO: 908 708342 Identifier: Ceres CLONE ID no. 708342 Lead_CeresClone708342 SEQ ID NO: 914 969750 Identifier: Ceres CLONE ID no. 969750 Lead_CeresClone969750 SEQ ID NO: 919 1001432 Identifier: Ceres CLONE ID no. 1001432 Lead_CeresClone1001432 SEQ ID NO: 930 1002819 Identifier: Ceres CLONE ID no. 1002819 Lead_CeresClone1002819 SEQ ID NO: 935 1007549 Identifier: Ceres CLONE ID no. 1007549 Lead_CeresClone1007549 SEQ ID NO: 948 1043081 Identifier: Ceres CLONE ID no. 1043081 Lead_CeresClone1043081 SEQ ID NO: 965 99298 Identifier: Ceres CLONE ID no. 99298 Lead_CeresClone99298 SEQ ID NO: 974 100245 Identifier: Ceres CLONE ID no. 100245 Lead_CeresClone100245 SEQ ID NO: 989 101798 Identifier: Ceres CLONE ID no. 101798 Lead_CeresClone101798 SEQ ID NO: 1005 38370 Identifier: Ceres CLONE ID no. 38370 Lead_CeresClone38370 SEQ ID NO: 1012 1496 Identifier: Ceres CLONE ID no. 1496 Lead_CeresClone1496 SEQ ID NO: 1031 2561 Identifier: Ceres CLONE ID no. 2561 Lead_CeresClone2561 SEQ ID NO: 1042 3618 Identifier: Ceres CLONE ID no. 3618 Lead_CeresClone3618 SEQ ID NO: 1048 7191 Identifier: Ceres CLONE ID no. 7191 Lead_CeresClone7191 SEQ ID NO: 1057 8254 Identifier: Ceres CLONE ID no. 8254 Lead_CeresClone8254 SEQ ID NO: 1062 8877 Identifier: Ceres CLONE ID no. 8877 Lead_CeresClone8877 SEQ ID NO: 1075 8916 Identifier: Ceres CLONE ID no. 8916 Lead_CeresClone8916 SEQ ID NO: 1078 10879 Identifier: Ceres CLONE ID no. 10879 Lead_CeresClone10879 SEQ ID NO: 1086 19116 Identifier: Ceres CLONE ID no. 19116 Lead_CeresClone19116 SEQ ID NO: 1092 19319 Identifier: Ceres CLONE ID no. 19319 Lead_CeresClone19319 SEQ ID NO: 1100 19486 Identifier: Ceres CLONE ID no. 19486 Lead_CeresClone19486 SEQ ID NO: 1106 19510 Identifier: Ceres CLONE ID no. 19510 Lead_CeresClone19510 SEQ ID NO: 1125 23322 Identifier: Ceres CLONE ID no. 23322 Lead_CeresClone23322 SEQ ID NO: 1136 25538 Identifier: Ceres CLONE ID no. 25538 Lead_CeresClone25538 SEQ ID NO: 1145 25607 Identifier: Ceres CLONE ID no. 25607 Lead_CeresClone25607 SEQ ID NO: 1155 25758 Identifier: Ceres CLONE ID no. 25758 Lead_CeresClone25758 SEQ ID NO: 1162 25886 Identifier: Ceres CLONE ID no. 25886 Lead_CeresClone25886 SEQ ID NO: 1181 27464 Identifier: Ceres CLONE ID no. 27464 Lead_CeresClone27464 SEQ ID NO: 1190 28602 Identifier: Ceres CLONE ID no. 28602 Lead_CeresClone28602 SEQ ID NO: 1204 35493 Identifier: Ceres CLONE ID no. 35493 Lead_CeresClone35493 SEQ ID NO: 1217 37229 Identifier: Ceres CLONE ID no. 37229 Lead_CeresClone37229 SEQ ID NO: 1227 37493 Identifier: Ceres CLONE ID no. 37493 Lead_CeresClone37493 SEQ ID NO: 1235 38105 Identifier: Ceres CLONE ID no. 38105 Lead_CeresClone38105 SEQ ID NO: 1242 38214 Identifier: Ceres CLONE ID no. 38214 Lead_CeresClone38214 SEQ ID NO: 1252 41320 Identifier: Ceres CLONE ID no. 41320 Lead_CeresClone41320 SEQ ID NO: 1262 42533 Identifier: Ceres CLONE ID no. 42533 Lead_CeresClone42533 SEQ ID NO: 1271 42925 Identifier: Ceres CLONE ID no. 42925 Lead_CeresClone42925 SEQ ID NO: 1282 95453 Identifier: Ceres CLONE ID no. 95453 Lead_CeresClone95453 SEQ ID NO: 1295 96020 Identifier: Ceres CLONE ID no. 96020 Lead_CeresClone96020 SEQ ID NO: 1302 97415 Identifier: Ceres CLONE ID no. 97415 Lead_CeresClone97415 SEQ ID NO: 1313 101255 Identifier: Ceres CLONE ID no. 101255 Lead_CeresClone101255 SEQ ID NO: 1321 103581 Identifier: Ceres CLONE ID no. 103581 Lead_CeresClone103581 SEQ ID NO: 1336 109514 Identifier: Ceres CLONE ID no. 109514 Lead_CeresClone109514 SEQ ID NO: 1346 115946 Identifier: Ceres CLONE ID no. 115946 Lead_CeresClone115946 SEQ ID NO: 1351 115975 Identifier: Ceres CLONE ID no. 115975 Lead_CeresClone115975 SEQ ID NO: 1359 117369 Identifier: Ceres CLONE ID no. 117369 Lead_CeresClone117369 SEQ ID NO: 1370 118337 Identifier: Ceres CLONE ID no. 118337 Lead_CeresClone118337 SEQ ID NO: 1383 150912 Identifier: Ceres CLONE ID no. 150912 Lead_CeresClone150912 SEQ ID NO: 1389 152141 Identifier: Ceres CLONE ID no. 152141 Lead_CeresClone152141 SEQ ID NO: 1403 157730 Identifier: Ceres CLONE ID no. 157730 Lead_CeresClone157730 SEQ ID NO: 1411 225597 Identifier: Ceres CLONE ID no. 225597 Lead_CeresClone225597 SEQ ID NO: 1415 264705 Identifier: Ceres CLONE ID no. 264705 Lead_CeresClone264705 SEQ ID NO: 1436 627596 Identifier: Ceres CLONE ID no. 627596 Lead_CeresClone627596 SEQ ID NO: 1450 729085 Identifier: Ceres CLONE ID no. 729085 Lead_CeresClone729085 SEQ ID NO: 1463 1011386 Identifier: Ceres CLONE ID no. 1011386 Lead_CeresClone1011386 SEQ ID NO: 1467 6082 Identifier: Ceres CLONE ID no. 6082 Lead_CeresClone6082 SEQ ID NO: 1474 13812 Identifier: Ceres CLONE ID no. 13812 Lead_CeresClone13812 SEQ ID NO: 1479 32811 Identifier: Ceres CLONE ID no. 32811 Lead_CeresClone32811 SEQ ID NO: 1485 224062 Identifier: Ceres CLONE ID no. 224062 Lead_CeresClone224062 SEQ ID NO: 1494 254065 Identifier: Ceres CLONE ID no. 254065 Lead_CeresClone254065 SEQ ID NO: 1502 22339 Identifier: Ceres CLONE ID no. 22339 Lead_CeresClone22339 SEQ ID NO: 1516 99784 Identifier: Ceres CLONE ID no. 99784 Lead_CeresClone99784 SEQ ID NO: 1532 100319 Identifier: Ceres CLONE ID no. 100319 Lead_CeresClone100319 SEQ ID NO: 1539 124720 Identifier: Ceres CLONE ID no. 124720 Lead_CeresClone124720 SEQ ID NO: 1548 288251 Identifier: Ceres CLONE ID no. 288251 Lead_CeresClone288251 SEQ ID NO: 1555 8014 Identifier: Ceres CLONE ID no. 8014 Lead_CeresClone8014 SEQ ID NO: 1562 16204 Identifier: Ceres CLONE ID no. 16204 Lead_CeresClone16204 SEQ ID NO: 1573 101250 Identifier: Ceres CLONE ID no. 101250 Lead_CeresClone101250 SEQ ID NO: 1579 283597 Identifier: Ceres CLONE ID no. 283597 Lead_CeresClone283597 SEQ ID NO: 1586 292789 Identifier: Ceres CLONE ID no. 292789 Lead_CeresClone292789 SEQ ID NO: 1606 4289 Identifier: Ceres CLONE ID no. 4289 Lead_CeresClone4289 SEQ ID NO: 1610 7925 Identifier: Ceres CLONE ID no. 7925 Lead_CeresClone7925 SEQ ID NO: 1613 10857 Identifier: Ceres CLONE ID no. 10857 Lead_CeresClone10857 SEQ ID NO: 1619 19481 Identifier: Ceres CLONE ID no. 19481 Lead_CeresClone19481 SEQ ID NO: 1626 28979 Identifier: Ceres CLONE ID no. 28979 Lead_CeresClone28979 SEQ ID NO: 1638 113719 Identifier: Ceres CLONE ID no. 113719 Lead_CeresClone113719 SEQ ID NO: 1651 147593 Identifier: Ceres CLONE ID no. 147593 Lead_CeresClone147593 SEQ ID NO: 1661 150798 Identifier: Ceres CLONE ID no. 150798 Lead_CeresClone150798 SEQ ID NO: 1666 152076 Identifier: Ceres CLONE ID no. 152076 Lead_CeresClone152076 SEQ ID NO: 1673 154031 Identifier: Ceres CLONE ID no. 154031 Lead_CeresClone154031 SEQ ID NO: 1677 246416 Identifier: Ceres CLONE ID no. 246416 Lead_CeresClone246416 SEQ ID NO: 1696 949 Identifier: Ceres CLONE ID no. 949 Lead_CeresClone949 SEQ ID NO: 1710 2036 Identifier: Ceres CLONE ID no. 2036 Lead_CeresClone2036 SEQ ID NO: 1719 18857 Identifier: Ceres CLONE ID no. 18857 Lead_CeresClone18857 SEQ ID NO: 1728 23518 Identifier: Ceres CLONE ID no. 23518 Lead_CeresClone23518 SEQ ID NO: 1745 156655 Identifier: Ceres CLONE ID no. 156655 Lead_CeresClone156655 SEQ ID NO: 1750 2273 Identifier: Ceres CLONE ID no. 2273 Lead_CeresClone2273 SEQ ID NO: 1756 5198 Identifier: Ceres CLONE ID no. 5198 Lead_CeresClone5198 SEQ ID NO: 1765 13767 Identifier: Ceres CLONE ID no. 13767 Lead_CeresClone13767 SEQ ID NO: 1773 29150 Identifier: Ceres CLONE ID no. 29150 Lead_CeresClone29150 SEQ ID NO: 1777 34480 Identifier: Ceres CLONE ID no. 34480 Lead_CeresClone34480 SEQ ID NO: 1785 38625 Identifier: Ceres CLONE ID no. 38625 Lead_CeresClone38625 SEQ ID NO: 1791 39351 Identifier: Ceres CLONE ID no. 39351 Lead_CeresClone39351 SEQ ID NO: 1800 153053 Identifier: Ceres CLONE ID no. 153053 Lead_CeresClone153053 SEQ ID NO: 1805 159318 Identifier: Ceres CLONE ID no. 159318 Lead_CeresClone159318 SEQ ID NO: 1811 241379 Identifier: Ceres CLONE ID no. 241379 Lead_CeresClone241379 SEQ ID NO: 1822 5220 Identifier: Ceres CLONE ID no. 5220 Lead_CeresClone5220 SEQ ID NO: 1826 11214 Identifier: Ceres CLONE ID no. 11214 Lead_CeresClone11214 SEQ ID NO: 1841 563522 Identifier: Ceres CLONE ID no. 563522 Lead_CeresClone563522 SEQ ID NO: 1860 21563 Identifier: Ceres CLONE ID no. 21563 Lead_CeresClone21563 SEQ ID NO: 1868 6397 Identifier: Ceres CLONE ID no. 6397 Lead_CeresClone6397 SEQ ID NO: 1872 14555 Identifier: Ceres CLONE ID no. 14555 Lead_CeresClone14555 SEQ ID NO: 1882 4067 Identifier: Ceres CLONE ID no. 4067 Lead_CeresClone4067 SEQ ID NO: 1895 4734 Identifier: Ceres CLONE ID no. 4734 Lead_CeresClone4734 SEQ ID NO: 1903 28643 Identifier: Ceres CLONE ID no. 28643 Lead_CeresClone28643 SEQ ID NO: 1917 733804 Identifier: Ceres CLONE ID no. 733804 Lead_CeresClone733804 SEQ ID NO: 1929 9221 Identifier: Ceres CLONE ID no. 9221 Lead_CeresClone9221 SEQ ID NO: 1943 11929 Identifier: Ceres CLONE ID no. 11929 Lead_CeresClone11929 SEQ ID NO: 1954 12071 Identifier: Ceres CLONE ID no. 12071 Lead_CeresClone12071 SEQ ID NO: 1961 13625 Identifier: Ceres CLONE ID no. 13625 Lead_CeresClone13625 SEQ ID NO: 1971 16865 Identifier: Ceres CLONE ID no. 16865 Lead_CeresClone16865 SEQ ID NO: 1988 18246 Identifier: Ceres CLONE ID no. 18246 Lead_CeresClone18246 SEQ ID NO: 1994 31044 Identifier: Ceres CLONE ID no. 31044 Lead_CeresClone31044 SEQ ID NO: 2001 38635 Identifier: Ceres CLONE ID no. 38635 Lead_CeresClone38635 SEQ ID NO: 2008 39155 Identifier: Ceres CLONE ID no. 39155 Lead_CeresClone39155 SEQ ID NO: 2011 107988 Identifier: Ceres CLONE ID no. 107988 Lead_CeresClone107988 SEQ ID NO: 2017 109912 Identifier: Ceres CLONE ID no. 109912 Lead_CeresClone109912 SEQ ID NO: 2020 154718 Identifier: Ceres CLONE ID no. 154718 Lead_CeresClone154718 SEQ ID NO: 2024 226122 Identifier: Ceres CLONE ID no. 226122 Lead_CeresClone226122 SEQ ID NO: 2039 691319 Identifier: Ceres CLONE ID no. 691319 Lead_CeresClone691319 SEQ ID NO: 2045 641 Identifier: Ceres CLONE ID no. 641 Lead_CeresClone641 SEQ ID NO: 2050 3819 Identifier: Ceres CLONE ID no. 3819 Lead_CeresClone3819 SEQ ID NO: 2069 3853 Identifier: Ceres CLONE ID no. 3853 Lead_CeresClone3853 SEQ ID NO: 2074 8133 Identifier: Ceres CLONE ID no. 8133 Lead_CeresClone8133 SEQ ID NO: 2079 15343 Identifier: Ceres CLONE ID no. 15343 Lead_CeresClone15343 SEQ ID NO: 2084 22007 Identifier: Ceres CLONE ID no. 22007 Lead_CeresClone22007 SEQ ID NO: 2088 23771 Identifier: Ceres CLONE ID no. 23771 Lead_CeresClone23771 SEQ ID NO: 2101 27197 Identifier: Ceres CLONE ID no. 27197 Lead_CeresClone27197 SEQ ID NO: 2111 33802 Identifier: Ceres CLONE ID no. 33802 Lead_CeresClone33802 SEQ ID NO: 2117 34210 Identifier: Ceres CLONE ID no. 34210 Lead_CeresClone34210 SEQ ID NO: 2130 38757 Identifier: Ceres CLONE ID no. 38757 Lead_CeresClone38757 SEQ ID NO: 2135 38785 Identifier: Ceres CLONE ID no. 38785 Lead_CeresClone38785 SEQ ID NO: 2141 38843 Identifier: Ceres CLONE ID no. 38843 Lead_CeresClone38843 SEQ ID NO: 2148 39127 Identifier: Ceres CLONE ID no. 39127 Lead_CeresClone39127 SEQ ID NO: 2154 95855 Identifier: Ceres CLONE ID no. 95855 Lead_CeresClone95855 SEQ ID NO: 2158 99763 Identifier: Ceres CLONE ID no. 99763 Lead_CeresClone99763 SEQ ID NO: 2170 267657 Identifier: Ceres CLONE ID no. 267657 Lead_CeresClone267657 SEQ ID NO: 2173 545208 Identifier: Ceres CLONE ID no. 545208 Lead_CeresClone545208 SEQ ID NO: 2178 546490 Identifier: Ceres CLONE ID no. 546490 Lead_CeresClone546490 SEQ ID NO: 2181 566317 Identifier: Ceres CLONE ID no. 566317 Lead_CeresClone566317 SEQ ID NO: 2188 28003 Identifier: Ceres CLONE ID no. 28003 Lead_CeresClone28003 SEQ ID NO: 2192 225200 Identifier: Ceres CLONE ID no. 225200 Lead_CeresClone225200 SEQ ID NO: 2200 301326 Identifier: Ceres CLONE ID no. 301326 Lead_CeresClone301326 SEQ ID NO: 2203 681088 Identifier: Ceres CLONE ID no. 681088 Lead_CeresClone681088 SEQ ID NO: 2210 681222 Identifier: Ceres CLONE ID no. 681222 Lead_CeresClone681222 SEQ ID NO: 2219 11975 Identifier: Ceres CLONE ID no. 11975 Lead_CeresClone11975 SEQ ID NO: 2233 14105 Identifier: Ceres CLONE ID no. 14105 Lead_CeresClone14105 SEQ ID NO: 2240 156807 Identifier: Ceres CLONE ID no. 156807 Lead_CeresClone156807 SEQ ID NO: 2245 228787 Identifier: Ceres CLONE ID no. 228787 Lead_CeresClone228787 SEQ ID NO: 2258 537272 Identifier: Ceres CLONE ID no. 537272 Lead_CeresClone537272 SEQ ID NO: 2275 608818 Identifier: Ceres CLONE ID no. 608818 Lead_CeresClone608818 SEQ ID NO: 2283 5055 Identifier: Ceres CLONE ID no. 5055 Lead_CeresClone5055 SEQ ID NO: 2293 331626 Identifier: Ceres CLONE ID no. 331626 Lead_CeresClone331626 SEQ ID NO: 2307 35742 Identifier: Ceres CLONE ID no. 35742 Lead_CeresClone35742 SEQ ID NO: 2312 22382 Identifier: Ceres CLONE ID no. 22382 Lead_CeresClone22382 SEQ ID NO: 2328 36334 Identifier: Ceres CLONE ID no. 36334 Lead_CeresClone36334 SEQ ID NO: 2334 102248 Identifier: Ceres CLONE ID no. 102248 Lead_CeresClone102248 SEQ ID NO: 2347 157709 Identifier: Ceres CLONE ID no. 157709 Lead_CeresClone157709 SEQ ID NO: 2350 24885 Identifier: Ceres CLONE ID no. 24885 Lead_CeresClone24885 SEQ ID NO: 2356 27810 Identifier: Ceres CLONE ID no. 27810 Lead_CeresClone27810 SEQ ID NO: 2370 40708 Identifier: Ceres CLONE ID no. 40708 Lead_CeresClone40708 SEQ ID NO: 2381 116117 Identifier: Ceres CLONE ID no. 116117 Lead_CeresClone116117 SEQ ID NO: 2386 538933 Identifier: Ceres CLONE ID no. 538933 Lead_CeresClone538933 SEQ ID NO: 2397 519 Identifier: Ceres CLONE ID no. 519 Lead_CeresClone519 SEQ ID NO: 2414 11843 Identifier: Ceres CLONE ID no. 11843 Lead_CeresClone11843 SEQ ID NO: 2423 14033 Identifier: Ceres CLONE ID no. 14033 Lead_CeresClone14033 SEQ ID NO: 2428 29009 Identifier: Ceres CLONE ID no. 29009 Lead_CeresClone29009 SEQ ID NO: 2431 32574 Identifier: Ceres CLONE ID no. 32574 Lead_CeresClone32574 SEQ ID NO: 2437 32612 Identifier: Ceres CLONE ID no. 32612 Lead_CeresClone32612 SEQ ID NO: 2453 36094 Identifier: Ceres CLONE ID no. 36094 Lead_CeresClone36094 SEQ ID NO: 2460 115966 Identifier: Ceres CLONE ID no. 115966 Lead_CeresClone115966 SEQ ID NO: 2472 121021 Identifier: Ceres CLONE ID no. 121021 Lead_CeresClone121021 SEQ ID NO: 2476 248859 Identifier: Ceres CLONE ID no. 248859 Lead_CeresClone248859 SEQ ID NO: 2481 266142 Identifier: Ceres CLONE ID no. 266142 Lead_CeresClone266142 SEQ ID NO: 2492 609573 Identifier: Ceres CLONE ID no. 609573 Lead_CeresClone609573 SEQ ID NO: 2503 3968 Identifier: Ceres CLONE ID no. 3968 Lead_CeresClone3968 SEQ ID NO: 2509 98850 Identifier: Ceres CLONE ID no. 98850 Lead_CeresClone98850 

What is claimed is:
 1. An isolated nucleic acid molecule comprising: a) a nucleic acid having a nucleotide sequence which encodes an amino acid sequence exhibiting at least 85% sequence identity to an amino acid sequence in the Sequence Listing or in the ortholog alignments of FIG. 1; b) a nucleic acid which is a complement of a nucleotide sequence according to paragraph (a); c) a nucleic acid which is the reverse of the nucleotide sequence according to subparagraph (a), such that the reverse nucleotide sequence has a sequence order which is the reverse of the sequence order of the nucleotide sequence according to subparagraph (a); or d) a nucleic acid capable of hybridizing to a nucleic acid according to any one of paragraphs (a)-(c), under conditions that permit formation of a nucleic acid duplex at a temperature from about 40° C. and 48° C. below the melting temperature of the nucleic acid duplex.
 2. The isolated nucleic acid molecule according to claim 1, which has the nucleotide sequence according to any polynucleotide sequence in the Sequence Listing.
 3. The isolated nucleic acid molecule according to claim 1, wherein said amino acid sequence comprises any polypeptide sequence in the Sequence Listing or in the ortholog alignments of FIG.
 1. 4. A vector construct comprising: a) a first nucleic acid having a regulatory sequence capable of causing transcription and/or translation in a plant; and b) a second nucleic acid having the sequence of the isolated nucleic acid molecule according to claim 1; wherein said first and second nucleic acids are operably linked and wherein said second nucleic acid is heterologous to any element in said vector construct.
 5. The vector construct according to claim 4, wherein said first nucleic acid is native to said second nucleic acid.
 6. The vector construct according to claim 4, wherein said first nucleic acid is heterologous to said second nucleic acid.
 7. A host cell comprising an isolated nucleic acid molecule according to claim 1 wherein said nucleic acid molecule is flanked by exogenous sequence.
 8. A host cell comprising a vector construct according to claim
 4. 9. An isolated polypeptide comprising an amino acid sequence exhibiting at least 85% sequence identity of an amino acid sequence of the Sequence Listing or in the ortholog alignments of FIG.
 1. 10. A method of introducing an isolated nucleic acid into a host cell comprising: a) providing an isolated nucleic acid molecule according to claim 1; and b) contacting said isolated nucleic with said host cell under conditions that permit insertion of said nucleic acid into said host cell.
 11. A method of transforming a host cell which comprises contacting a host cell with a vector construct according to claim
 4. 12. A method for detecting a nucleic acid in a sample which comprises: a) providing an isolated nucleic acid molecule according to claim 1; b) contacting said isolated nucleic acid molecule with a sample under conditions which permit a comparison of the sequence of said isolated nucleic acid molecule with the sequence of DNA in said sample; and c) analyzing the result of said comparison.
 13. A host cell or organism which comprises a nucleic acid molecule according to claim 1 which is exogenous or heterologous to said plant or plant cell.
 14. A host cell or organism according to claim 13, which is a plant, plant cell, plant material or seed of a plant.
 15. A plant which has been regenerated from a plant cell or seed according to claim
 14. 16. A plant, plant cell, plant material or seed of a plant which comprises a nucleic acid molecule according to claim 1, wherein said plant has improved characteristics as compared to a wild-type plant cultivated under the same conditions.
 17. The plant, plant cell, plant material or seed of a plant according to claim 16, wherein the improved characteristic is the one associated with and described in the miscellaneous feature section of the sequence listing for the particular sequence.
 18. A method for improving plant characteristics in a plant comprising transforming a plant with a nucleic acid sequence according to claim
 1. 19. A transgenic plant having a gene construct comprising a nucleic acid according to claim 1 encoding a component operably linked to a plant promoter so that the component is ectopically overexpressed in the transgenic plant, and the transgenic plant exhibits: i) faster rate of growth, ii) greater fresh or dry weight at maturation, iii) greater fruit or seed yield, iv) higher tolerance to pH, v) higher tolerance to low phosphate concentration, or vi) higher tolerance to low nitrogen concentration than a progenitor plant which does not contain the polynucleotide construct, when the transgenic plant and the progenitor plant are cultivated under identical environmental conditions, wherein the component is any one of the polypeptides set forth in the Sequence Listing or in the ortholog alignment of FIG.
 1. 